Cleaning device for coating nozzle
阅读说明:本技术 涂布用喷嘴的清扫装置 (Cleaning device for coating nozzle ) 是由 横山雅树 福井慎也 大森悠丘 新谷宗康 于 2019-04-02 设计创作,主要内容包括:一种清扫装置,从设置于在被涂布体的上方行进的涂布用喷嘴的前端面处的狭缝状的排出口排出涂敷液,在对被涂布体的表面涂布涂敷液之后,上述清扫装置通过清扫构件去除残留于涂布用喷嘴的前端部的涂敷液,在涂布用喷嘴的行进方向上夹着所需间隔设置的第一清扫构件和第二清扫构件设置有与涂布用喷嘴的前端部的形状对应的清扫用刮除部,并且上述第一清扫构件和第二清扫构件朝向涂布用喷嘴的前端部的长度方向向相反方向倾斜,使这些清扫构件中的清扫用刮除部沿着涂布用喷嘴的前端部,并使第一清扫构件和第二清扫构件依次向相反方向移动,从而对涂敷用喷嘴的前端部进行清扫。(A cleaning device discharges coating liquid from a slit-shaped discharge port provided at a distal end surface of a coating nozzle running above a body to be coated, the cleaning device removes the coating liquid remaining at the tip of the coating nozzle by the cleaning member after the coating liquid is applied to the surface of the object to be coated, the first cleaning member and the second cleaning member provided at a desired interval in the traveling direction of the coating nozzle are provided with cleaning scraper portions corresponding to the shape of the tip end of the coating nozzle, and the first cleaning member and the second cleaning member are inclined in opposite directions toward the longitudinal direction of the tip end of the coating nozzle so that the cleaning scraper portion of the cleaning members is along the tip end of the coating nozzle, the first cleaning member and the second cleaning member are sequentially moved in opposite directions to clean the tip end of the coating nozzle.)
1. A cleaning device for an application nozzle, using an application nozzle elongated in a direction intersecting with a direction in which the application nozzle travels above an object to be coated, wherein a slit-shaped discharge port for discharging an application liquid to a tip surface of the application nozzle opposite to the object to be coated is provided along a longitudinal direction of the application nozzle, the application nozzle travels above the object to be coated, and after the application liquid is discharged from the slit-shaped discharge port and applied to a surface of the object to be coated, the application liquid remaining at a tip portion of the tip surface of the application nozzle including the slit-shaped discharge port is removed by a cleaning member moving below the application nozzle along the tip portion of the application nozzle, thereby cleaning the tip portion of the application nozzle,
the cleaning member includes a first cleaning member and a second cleaning member, each of which is provided with a cleaning blade portion corresponding to the shape of the tip portion of the coating nozzle, and is inclined from below the coating nozzle toward the tip portion of the coating nozzle and in the opposite direction with respect to the longitudinal direction of the coating nozzle, and the cleaning blade portion of the first cleaning member and the second cleaning member is moved along the tip portion of the coating nozzle and in the opposite direction in order along the tip portion of the coating nozzle, thereby cleaning the tip portion of the coating nozzle.
2. The cleaning device for a coating nozzle according to claim 1,
the first cleaning member and the second cleaning member are inclined from below the coating nozzle toward the tip end of the coating nozzle so as to face the moving direction when the tip end of the coating nozzle is cleaned.
3. The cleaning device for a coating nozzle according to claim 1 or 2,
a first front end surface cleaning member that cleans the front end surface of the coating nozzle provided with the slit-shaped discharge port is provided on the downstream side in the moving direction of the first cleaning member, and a second front end surface cleaning member that cleans the front end surface of the coating nozzle provided with the slit-shaped discharge port is provided on the downstream side in the moving direction of the second cleaning member.
4. A cleaning device of a coating nozzle according to any one of claims 1 to 3,
when the tip end portion of the coating nozzle is cleaned by the first cleaning member and the second cleaning member, the coating nozzle is provided to be relatively movable up and down with respect to the first cleaning member and the second cleaning member, and the tip end portion of the coating nozzle is guided into a cleaning blade portion of the first cleaning member, the tip end portion of the coating nozzle is cleaned by the first cleaning member, and then, the tip end portion of the coating nozzle is guided into a cleaning blade portion of the second cleaning member, and the tip end portion of the coating nozzle is cleaned by the second cleaning member.
Technical Field
The present invention relates to a cleaning device for a coating nozzle, which cleans a tip end portion of a coating nozzle provided with a slit-shaped discharge port for discharging a coating liquid, among coating nozzles used in a desktop coater (registered trademark: テーブルコータ, hereinafter omitted) for coating various coating liquids on a surface of a body to be coated such as a glass plate. In particular, in the above-described cleaning device for the coating nozzle, after the coating liquid is discharged from the slit-shaped discharge port provided in the distal end surface of the coating nozzle running above the object to be coated and the coating liquid is applied to the surface of the object to be coated, the coating liquid remaining in the distal end portion of the coating nozzle provided with the slit-shaped discharge port is removed by the cleaning member moving along the distal end portion of the coating nozzle, thereby cleaning the distal end portion of the coating nozzle, and the occurrence of the following coating failure can be reliably prevented: in the case where the cleaning member removes the coating liquid remaining at the tip end of the coating nozzle, the coating liquid adhering to the cleaning member is gradually accumulated, and the coating liquid thus accumulated adheres to the tip end of the coating nozzle from the cleaning member and is applied to the object to be coated and the periphery thereof.
Background
In the production of a plasma display panel, an organic electroluminescence display panel, a liquid crystal display panel, or the like, a table coater has been conventionally used in which a coating nozzle having a slit-shaped discharge port for discharging a coating liquid is used at a tip portion thereof, and the coating liquid is discharged from the slit-shaped discharge port provided at the tip portion of the coating nozzle to a surface of an object to be coated while moving the coating nozzle above the object to be coated as described above, thereby coating the surface of the object with the coating liquid.
However, when the coating liquid is applied to the surface of the object to be coated in this way, the coating liquid partially remains in the discharge port or the peripheral portion of the tip portion of the coating nozzle.
In addition, when the coating liquid is applied to the surface of the next object to be coated by the coating nozzle having the coating liquid partially remaining therein, there are the following problems: the coating liquid remaining at the tip of the coating nozzle causes uneven streaking of the coating liquid applied to the surface of the next object to be coated.
Therefore, the following proposals have been made: after the application liquid is applied to the surface of the object to be coated from the discharge port in the tip portion of the application nozzle as described above, the application nozzle is guided to a cleaning device provided at a position away from the object to be coated, and as shown in patent documents 1 to 3, a cleaning member provided in the cleaning device is moved along the tip portion of the application nozzle, and the cleaning member scrapes off the tip portion of the application nozzle to remove the application liquid remaining in the tip portion of the application nozzle.
Here, as the coating nozzle, in general, as disclosed in patent documents 1 to 3, a V-shaped lip slope spreading in a tapered shape upward is provided on both sides of an elongated tip surface of a tip of the coating nozzle provided with a slit-shaped discharge port, and the tip portion is substantially V-shaped. On the other hand, in the cleaning device for cleaning the tip end portion of the coating nozzle, as the cleaning member, an elongated tip end surface of the tip end portion of the coating nozzle is in contact with lip slopes having a V shape provided on both sides thereof, and a cleaning scraper portion having a substantially V-shaped notch is provided to remove the coating liquid remaining in these portions.
Patent document 1 discloses a combination of: not only the cleaning scraping section having the V-shaped notch is provided, but also the V-shaped left and right slopes are used as different cleaning scraping sections.
Then, conventionally, as described above, the coating nozzle is guided to the cleaning device after coating the surface of the object with the coating liquid, the tip end portion of the coating nozzle is fitted into the notch or the like in the cleaning blade portion of the cleaning member, and both the elongated tip end surface of the tip end portion of the coating nozzle and the V-shaped lip slopes provided on both sides thereof are brought into contact with the cleaning blade portion of the cleaning member.
However, when the coating liquid remaining at the distal end portion of the coating nozzle is removed from the distal end portion of the coating nozzle by the cleaning member, the coating liquid removed from the distal end portion of the coating nozzle adheres to and remains on the cleaning member, and particularly, in the case of a high-viscosity coating liquid, the coating liquid adhering to the cleaning member does not flow down from the cleaning member and remains, and the amount of the coating liquid adhering to the cleaning member gradually increases, and thus the coating liquid adhering to and remaining on the cleaning member gradually solidifies.
Further, the coating liquid which has adhered to and remained on the cleaning member and gradually solidified adheres to the coating portion of the tip end portion of the coating nozzle or to the outside of the coating portion, and when a new coating liquid is applied to the surface of the coated body using the coating nozzle to which the coating liquid solidified in this manner has adhered, the solidified coating liquid as a foreign substance adheres to the coating portion or to the outside of the coating portion, thereby causing a problem of defective coating.
Here, in the above patent documents 1 to 3, no particular solution is shown for preventing the problem of the coating failure, which is the problem that the coating liquid adhering to and remaining solidified in the cleaning member adheres to the coating portion at the tip end of the coating nozzle or the outside of the coating portion, and when the coating liquid is applied to the surface of the object to be coated by the coating nozzle, foreign matter adheres to the coating portion or the outside of the coating portion, and the coating failure occurs.
Disclosure of Invention
Technical problem to be solved by the invention
The present invention has been made to solve the above-described problems occurring in the cleaning device for a coating nozzle, and an object of the present invention is to clean a tip portion of a coating nozzle provided with a slit-shaped discharge port for discharging a coating liquid, in a coating nozzle used in a desktop coater for coating a surface of a coated object such as a glass plate with various coating liquids.
Further, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a cleaning device for a coating nozzle, in which the coating nozzle is moved relative to a body to be coated, the coating nozzle is guided to a cleaning device after coating a surface of the body to be coated with a coating liquid from a slit-shaped discharge port provided in a tip end surface of the coating nozzle, and when the tip end portion of the coating nozzle is cleaned by removing the coating liquid remaining in the tip end portion of the coating nozzle provided with the slit-shaped discharge port by a cleaning member moving along the tip end portion of the coating nozzle, a part of the coating liquid removed from the tip end portion of the coating nozzle adheres to and accumulates in the cleaning member, and even if the coating liquid thus accumulated adheres to the tip end portion of the coating nozzle from the cleaning member, the adhered coating liquid can be appropriately removed from the tip end portion of the coating nozzle by the cleaning member, thus, even when a high-viscosity coating liquid is used, the coating liquid adhering to and accumulated in the cleaning member does not adhere to the tip of the coating nozzle and is applied to the object to be coated and the periphery thereof, and the tip of the coating nozzle can be stably and sufficiently cleaned by the cleaning member.
Technical scheme for solving technical problem
In order to solve the above-described problems, the present invention provides a cleaning device for an application nozzle, comprising an application nozzle elongated in a direction intersecting with a direction in which an object to be applied travels upward, a slit-shaped discharge port for discharging an application liquid to a tip surface of the application nozzle opposed to the object to be applied, the application nozzle traveling above the object to be applied, the application liquid being discharged from the slit-shaped discharge port and applied to a surface of the object to be applied, and a cleaning member moving along a tip portion of the application nozzle below the application nozzle to remove the application liquid remaining in the tip portion including the tip surface of the application nozzle provided with the slit-shaped discharge port and clean the tip portion of the application nozzle, the cleaning member includes a first cleaning member and a second cleaning member, each of which is provided with a cleaning blade portion corresponding to the shape of the tip portion of the coating nozzle, and the first cleaning member and the second cleaning member are inclined so as to face the tip portion of the coating nozzle from below the coating nozzle and to face in opposite directions with respect to the longitudinal direction of the coating nozzle, and the cleaning blade portion of the first cleaning member and the second cleaning member is provided so as to face in opposite directions along the tip portion of the coating nozzle, and the first cleaning member and the second cleaning member are sequentially moved in opposite directions along the tip portion of the coating nozzle, respectively, to clean the tip portion of the coating nozzle.
As in the cleaning device for the coating nozzle according to the present invention, the first cleaning member and the second cleaning member provided with the cleaning blade portion corresponding to the shape of the tip portion of the coating nozzle as the cleaning member are provided so as to sandwich a predetermined interval in the traveling direction of the coating nozzle, and the first cleaning member and the second cleaning member are inclined so as to face the tip portion of the coating nozzle from below the coating nozzle and to face in the opposite direction with respect to the longitudinal direction of the coating nozzle, and the cleaning blade portion of the first cleaning member and the second cleaning member is provided so as to face along the tip portion of the coating nozzle, and the first cleaning member and the second cleaning member are sequentially moved in the opposite directions along the tip portion of the coating nozzle to clean the tip portion of the coating nozzle, and at this time, a part of the coating liquid removed from the tip portion of the coating nozzle adheres to and accumulates in one of the cleaning members, even if the coating liquid thus accumulated adheres to the tip end portion of the coating nozzle from one cleaning member, the adhered coating liquid can be appropriately removed from the tip end portion of the coating nozzle by the other cleaning member.
In the cleaning device for an application nozzle according to the present invention, when the first cleaning member and the second cleaning member are inclined in opposite directions in the longitudinal direction of the distal end portion of the application nozzle intersecting the traveling direction of the application nozzle, it is preferable that each of the first cleaning member and the second cleaning member is inclined from below the application nozzle toward the distal end portion of the application nozzle so as to face the moving direction in the case of cleaning the distal end portion of the application nozzle. In this way, even when a high-viscosity coating liquid such as polyimide is used, the coating liquid remaining at the tip end portion of the coating nozzle can be reliably scraped off in the downward direction by the first cleaning member or the second cleaning member inclined in the moving direction as described above, and the coating liquid remaining at the tip end portion of the coating nozzle can be sufficiently removed.
In the cleaning device for an application nozzle according to the present invention, a first end face cleaning member for cleaning the end face of an application nozzle provided with a slit-shaped discharge port may be provided on the downstream side in the moving direction of the first cleaning member, and a second end face cleaning member for cleaning the end face of an application nozzle provided with a slit-shaped discharge port may be provided on the downstream side in the moving direction of the second cleaning member. In this way, after the coating liquid is discharged from the slit-shaped discharge port provided in the distal end surface of the coating nozzle running above the object to be coated and the coating liquid is applied to the surface of the object to be coated, the coating liquid remaining on the distal end surface of the coating nozzle provided with the slit-shaped discharge port can be reliably removed and cleaned by the first distal end surface cleaning member and the second distal end surface cleaning member. In the case where the first and second distal end surface cleaning members are provided, it is preferable that the first and second distal end surface cleaning members are inclined in a direction in which the distal end portion of the coating nozzle moves when cleaning, as in the case of the first and second cleaning members.
In the cleaning device for an application nozzle according to the present invention, it is also effective to incline the first cleaning member and the second cleaning member in directions opposite to the moving direction in the case of cleaning the tip end portion of the application nozzle when the application liquid having a low viscosity is used.
In the coating nozzle cleaning device according to the present invention, when the first cleaning member and the second cleaning member clean the tip end portion of the coating nozzle, the coating nozzle may be provided so as to be relatively movable up and down with respect to the first cleaning member and the second cleaning member, the tip end portion of the coating nozzle may be guided into the cleaning scraper portion of the first cleaning member, the tip end portion of the coating nozzle may be cleaned by the first cleaning member, the tip end portion of the coating nozzle may be guided into the cleaning scraper portion of the second cleaning member, and the tip end portion of the coating nozzle may be cleaned by the second cleaning member. In this case, the first cleaning member and the second cleaning member can be moved up and down in addition to the application nozzle, but from the viewpoint of ease of handling, the application nozzle is preferably moved up and down.
Effects of the invention
In the cleaning device for an application nozzle of the present invention, as the cleaning member described above, the first cleaning member and the second cleaning member provided with the cleaning scraper portion corresponding to the shape of the tip portion of the application nozzle are provided so as to sandwich a desired interval in the traveling direction of the application nozzle, and the first cleaning member and the second cleaning member are inclined so as to face the tip portion of the application nozzle from below the application nozzle and to face in opposite directions with respect to the longitudinal direction of the application nozzle, the cleaning scraper portion of the first cleaning member and the second cleaning member is provided so as to be along the tip portion of the application nozzle, and the first cleaning member and the second cleaning member are sequentially moved in opposite directions along the tip portion of the application nozzle, respectively, and the tip portion of the application nozzle is cleaned by the first cleaning member and the second cleaning member, therefore, even if a part of the coating liquid removed from the tip end portion of the coating nozzle adheres to and accumulates in the one cleaning member, and the coating liquid thus accumulated adheres to the tip end portion of the coating nozzle from the one cleaning member, the adhered coating liquid can be appropriately removed from the tip end portion of the coating nozzle by the other cleaning member.
Here, as a method of sequentially moving the first cleaning member and the second cleaning member in opposite directions along the tip end portion of the coating nozzle, the first cleaning member may be moved and then the second cleaning member may be moved.
As a result, in the cleaning device for an application nozzle according to the present invention, even if the coating liquid adhering to and accumulated in the cleaning member adheres to the tip portion of the application nozzle from the cleaning member, the adhering coating liquid can be appropriately removed from the tip portion of the application nozzle, thereby reliably preventing the occurrence of a coating failure, and particularly, even when a high-viscosity coating liquid is used, the coating liquid adhering to and accumulated in the cleaning member does not adhere to the tip portion of the application nozzle and is applied to the object to be coated and the periphery thereof, thereby enabling the tip portion of the application nozzle to be stably and sufficiently cleaned by the cleaning member.
Drawings
Fig. 1 is a schematic explanatory view of an application device using a cleaning device of an application nozzle according to an embodiment of the present invention.
Fig. 2 is a schematic explanatory view showing a state in which the coating device discharges the coating liquid from a slit-shaped discharge port provided on a tip end surface of the coating nozzle while moving the coating nozzle over the object to be coated provided on the table, and coats the surface of the object with the coating liquid.
Fig. 3 is a schematic explanatory view showing a state in which the coating device discharges the coating liquid from a slit-shaped discharge port provided in a tip end surface of the coating nozzle while moving the coating nozzle over the object to be coated provided on the table, and coats the entire surface of the object to be coated with the coating liquid.
Fig. 4 shows a state in which the coating liquid remains at the tip of the coating nozzle after the coating liquid is applied to the surface of the object to be coated in the coating apparatus, where (a) is a schematic side view of the coating nozzle, and (B) is a schematic cross-sectional view of the coating nozzle.
Fig. 5 is a schematic explanatory view showing a state in which, in the cleaning device for the coating nozzle of the above embodiment, the coating nozzle in a state in which the coating liquid remains at the tip end portion is guided to the position of the first cleaning member in the cleaning device, and the tip end portion of the coating nozzle in a state in which the coating liquid remains is incorporated into the cleaning blade portion of the first cleaning member.
Fig. 6 is a schematic explanatory view showing a state where the first cleaning member and the first distal end surface cleaning member move in the longitudinal direction of the distal end portion of the application nozzle in a state where the application liquid remains and clean the distal end portion of the application nozzle in the cleaning device of the application nozzle of the above embodiment, (a) is a schematic explanatory view showing a state where the first cleaning member and the first distal end surface cleaning member move toward the distal end portion of the application nozzle in a state where the application liquid remains, and (B) is a schematic explanatory view showing a state where a part of the removed application liquid adheres to the first cleaning member or the first distal end surface cleaning member in a case where the first cleaning member and the first distal end surface cleaning member move along the distal end portion of the application nozzle and clean by removing the application liquid remaining at the distal end portion of the application nozzle.
Fig. 7 is a schematic explanatory view showing a state in which, in the cleaning device for the coating nozzle of the above embodiment, the coating nozzle after being cleaned by the first cleaning member and the first distal end surface cleaning member is guided from the position of the first cleaning member to the position of the second cleaning member in the cleaning device, and the distal end portion of the coating nozzle is fitted into the cutout of the cleaning blade portion in the second cleaning member.
Fig. 8 shows a state in which the second cleaning member and the second front end surface cleaning member move in the opposite direction to the first cleaning member and the first front end surface cleaning member along the longitudinal direction of the front end portion of the coating nozzle and clean the front end portion of the coating nozzle in the cleaning device of the coating nozzle of the above embodiment, (a) is a schematic explanatory view showing a state in which the second cleaning member and the second front end surface cleaning member move in the opposite direction to the first cleaning member and the first front end surface cleaning member toward the front end portion of the coating nozzle after cleaning by the first cleaning member and the first front end surface cleaning member, (B) is a schematic explanatory view showing a state in which the second cleaning member and the second front end surface cleaning member move in the opposite direction to the first cleaning member and the first front end surface cleaning member along the front end portion of the coating nozzle, and further a schematic explanatory view of a state after cleaning the tip end portion of the coating nozzle.
Fig. 9 shows a state in which, when cleaning the coating liquid remaining at the tip end portion of the coating nozzle after a plurality of uses from the tip end portion of the coating nozzle in the cleaning device for the coating nozzle of the above-described embodiment, the first cleaning member and the first tip end surface cleaning member in a state in which a part of the removed coating liquid is adhered are moved in the longitudinal direction of the tip end portion of the coating nozzle in a state in which the coating liquid is remaining, and after cleaning the tip end portion of the coating nozzle, the second cleaning member and the second tip end surface cleaning member are moved in the opposite direction to the first cleaning member and the first tip end surface cleaning member in the longitudinal direction of the tip end portion of the coating nozzle with the coating liquid remaining on the first cleaning member or the first tip end surface cleaning member, and the coating liquid remaining at the tip end portion of the coating nozzle is removed to clean, (A) a schematic explanatory view showing a state in which the first cleaning member and the first distal end surface cleaning member are moved toward the distal end portion of the application nozzle in a state in which the application liquid remains, (B) a schematic explanatory view showing a state in which the application liquid remaining in the first cleaning member or the first distal end surface cleaning member is attached to and remains in the distal end portion of the application nozzle when the first cleaning member and the first distal end surface cleaning member are moved along the distal end portion of the application nozzle and the application liquid remaining in the distal end portion of the application nozzle is removed for cleaning, (C) a schematic explanatory view showing a state in which the second cleaning member and the second distal end surface cleaning member are moved in a direction opposite to the first cleaning member and the first distal end surface cleaning member toward the distal end portion of the application nozzle in which a part of the application liquid remains after cleaning by the first cleaning member and the first distal end surface cleaning member, (D) the second cleaning member and the second distal end surface cleaning member are moved in a direction opposite to the first cleaning member and the first distal end surface cleaning member along the distal end portion of the application nozzle, and the application liquid adhering to the distal end portion of the application nozzle is removed from the first cleaning member and the first distal end surface cleaning member to perform cleaning.
Detailed Description
Hereinafter, a cleaning device for a coating nozzle according to an embodiment of the present invention will be specifically described with reference to the drawings. The cleaning device for the coating nozzle of the present invention is not limited to the following embodiments, and can be implemented by being appropriately modified within a range not changing the gist of the present invention.
Here, in this embodiment, as shown in fig. 1, an object to be coated W such as a glass plate is disposed above the table 11 of the
Then, the coating liquid x is discharged from the
Here, when the coating liquid x is applied to the surface of the object W by the
Then, the coating liquid x contained in a coating liquid supply tank (not shown) is supplied to a manifold 24 provided inside the
Next, while discharging the coating liquid x from the slit-shaped discharge port 22 provided on the
In the above-described
Therefore, the
Here, in the
Although the
In the
Here, when the
Then, in a state where the tip end portion of the
Next, the cleaning moving table 32 is moved toward the other end side in the longitudinal direction of the
Then, in a state where the tip end portion of the
In addition, when the tip end portion of the application nozzle 20 in which the application liquid x remains is cleaned a plurality of times as described above, a part of the application liquid x removed from the tip end portion of the application nozzle 20 by the first cleaning member 33 and the first tip surface cleaning member 35 as described above adheres to and accumulates in the first cleaning member 33 or the first tip surface cleaning member 35, and when the amounts of the application liquid x accumulated in the first cleaning member 33 and the first tip surface cleaning member 35 increase and increase in order, as shown in fig. 9 (a) and (B), the cleaning moving table 32 is caused to travel from one longitudinal direction end side of the application nozzle 20 to the other longitudinal direction end side of the application nozzle 20 while the cleaning scraping section 33a in the first cleaning member 33 and the tip surface of the first tip surface cleaning member 35 are brought into contact with the tip end portion of the application nozzle 20, and the tip end portion of the application nozzle 20 is removed from the tip end portion of the application nozzle 20 by the first cleaning member 33 and the first tip surface cleaning member 35 as described above When the coating liquid x remains at the distal end portion of the coating nozzle 20, the coating liquid x accumulated in the first cleaning member 33 or the first distal end surface cleaning member 35 again adheres to the distal end portion of the coating nozzle 20, and the amount of the coating liquid x remaining at the distal end portion of the coating nozzle 20 increases. Therefore, when the coating process is performed using the
In fig. 9 (a), when the
In contrast, in this embodiment, as described above, the
As a result, even when the coating liquid x accumulated in the
In this embodiment, when the
In the above embodiment, the case where the distal end portion of the
Description of the symbols
10: table type coating machine
11: the working table 12: track for traveling
13: traveling member
20: nozzle for coating
21: front end face
22: discharge port
23: lip bevel
24: manifold
25: guide path
30: cleaning device
31: guide rail
32: mobile platform for cleaning
33: first cleaning member
33 a: scraping part for cleaning
34: second cleaning member
34 a: scraping part for cleaning
35: first front end face cleaning member
36: second front end face cleaning member
W: coated body
x: coating liquid
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