The present application claims priority under 35 U.S.C. § 119 to Japanese Patent Application No. 2017-053408, filed on Mar. 17, 2017 and Japanese Patent Application No. 2018-032457, filed on Feb. 26, 2018. The contents of which are incorporated herein by reference in their entirety.
The present invention relates to a curtain coating device and a curtain coating method.
A curtain coating method is one of methods for forming a coating film on the surface of a sheet-like base material such as a sheet of paper and a piece of film. For example, some of curtain coating devices used in the curtain coating method include a mechanism that folds a sheet by a guide and that collects a coating liquid of both end portions of a curtain by providing a groove as disclosed in Japanese Unexamined Patent Application Publication No. 2002-86040. Such mechanism is introduced to form an uncoated portion on both ends of the sheet.
A slitter is used to remove the uncoated portion in the succeeding process. In general, the uncoated portion is slit by taking into account variation in the width of the uncoated portion and setting a larger width than that of a target uncoated portion so that an uncoated area does not remain after the uncoated portion is slit.
However, in view of improving productivity, there has been a demand to reduce the area to be removed as much as possible and to utilize the coated portion as much as possible.
According to one aspect of the present invention, a curtain coating device includes a curtain coating member, a conveyance unit, a separation member, and a base material supporting member. The curtain coating member creates a curtain-like film of coating liquid and makes the curtain-like film flow down. The conveyance unit conveys a base material to which the curtain-like film is to be applied. The separation member includes a receiving portion inclined downward from inside to outside in a width direction of the curtain-like film, and separates an end portion of the curtain-like film having flowed down by receiving the end portion with the receiving portion above the base material. The base material supporting member is disposed inside in the width direction of the curtain-like film than the receiving portion of the separation member, and supports the base material on an upper side flat portion while the base material is being conveyed.
The accompanying drawings are intended to depict exemplary embodiments of the present invention and should not be interpreted to limit the scope thereof. Identical or similar reference numerals designate identical or similar components throughout the various drawings.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the present invention.
As used herein, the singular forms “a”, “an” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise.
In describing preferred embodiments illustrated in the drawings, specific terminology may be employed for the sake of clarity. However, the disclosure of this patent specification is not intended to be limited to the specific terminology so selected, and it is to be understood that each specific element includes all technical equivalents that have the same function, operate in a similar manner, and achieve a similar result.
The inventors of the present invention have found problems that in the curtain coating device including the mechanism as described above, an end portion of a bent sheet flaps when the sheet is passing below the groove, and due to the flapping, variation occurs in the width of the uncoated area. The inventors and the like of the present invention have also found that by reducing the variation in the width of the uncoated area, it is possible to minimize the cutting-off amount of the uncoated portion in the succeeding process, and to reduce the loss of the base material.
An object of an embodiment is to provide a curtain coating device capable of preventing the base material (sheet) from flapping, and keeping the uncoated width of the end portion in the base material width direction uniform.
An embodiment of the present invention will be described in detail below with reference to the drawings.
The curtain coating device 100 includes a curtain coating member 13, the first conveyance roller 15, and the second conveyance roller 17. The first conveyance roller 15 is disposed below the curtain coating member 13, and conveys a base material 21 serving as a member to be coated. The second conveyance roller 17 is disposed at the downstream side of the conveying direction than the first conveyance roller 15, and conveys the base material 21 in the lower direction. In this example, the first conveyance roller 15 serving as a first roller and the second conveyance roller 17 serving as a second roller serve as a conveyance unit of the base material 21 to which a curtain-like film is to be applied.
Moreover, the curtain coating device 100 includes the curtain coating member 13 that forms a coating film 23 by dropping a curtain-like film 25 on the base material 21 between the first conveyance roller 15 and the second conveyance roller 17, and includes a coating width control member 27 that controls the coating width of the curtain-like film 25.
In the curtain coating device 100, for example, as illustrated in
The curtain coating member 13 includes an ejection port 26 that ejects a coating liquid (coating solution) 103 (see
The curtain coating device 100 includes an edge guide 51 capable of keeping the liquid film in a curtain shape.
The curtain coating member 13 includes a slide die 101, the coating liquid 103 held in the slide die, and the slit-shaped ejection port 26 for ejecting the coating liquid 103. The coating liquid 103 ejected from the ejection port 26 flows along on a slide die main body 110, flows down onto the base material 21 in the form of the curtain-like film 25, thereby forming the coating film 23 on the base material 21.
The curtain coating device 100 illustrated in
The coating width control member 27 may be disposed on both ends of the base material 21 in the width direction, or may be disposed on one of the ends of the base material 21 in the width direction. The coating width control member 27 and the like are not illustrated in the left side of
Next, details of the guide member will be described. One end of the guide member 31 that extends in the width direction of the base material 21 is supported by a casing of the curtain coating device 100. The guide member 31 includes a guide groove 31a into which one end of the connection arm 29 that extends in the base material conveying direction is to be inserted. The other end of the connection arm 29 is fixed to the coating width control member 27. Thus, the coating width control member 27 and the connection arm 29 are guided along the guide member 31 that extends in the width direction of the base material 21 in an integral manner, and the width of the curtain-like film 25 is changeable by moving the coating width control member 27. However, the configuration of the guide member is not limited thereto, and if there is no need to change the coating width or the like, the guide member is not necessarily required.
In the following, one example of the coating width control member 27 will be described. It is to be noted that the coating width control member in the present invention is not limited to the one illustrated in
As illustrated in
Separation Member
As illustrated in
Width h of the separation member 33 that corresponds to the distance between the sidewalls 33b is not particularly limited, and may be suitably selected according to the object. Length l of the separation member 33 is also not particularly limited, and may be suitably selected according to the object.
The thickness of the separation wall 33a of the separation member 33 is not particularly limited, but it is preferable that the separation wall 33a is formed in a flat surface shape of 0.1 mm to 2 mm. When the thickness of the separation wall 33a is within a range from 0.1 mm to 2 mm, it is possible to prevent the disturbance of flux that may occur due to contact between the coating liquid 103 that has flowed down onto the separation wall 33a and the separation wall 33a, and reduce variation in the thickness of the coating film end portion, while ensuring the strength of the separation wall.
It is also preferable that the separation wall 33a is fixed to the receiving portion 33c such that the surface direction of the separation wall 33a is orthogonal to the surface direction of the curtain-like film 25 that has flowed down from the curtain coating member 13. Consequently, it is possible to minimize the contact area between the coating liquid 103 that has flowed down onto the separation wall 33a and the separation wall 33a. Moreover, it is preferable that the separation member 33 is disposed on the curtain coating device 100 such that the surface direction of the separation wall 33a is in parallel with the conveying direction of the base material, during coating. Consequently, even if the curtain-like film 25 is deviated in the conveying direction, the coating film end portion does not move in a zigzag manner and is formed in a shape excellent in linearity.
The height of the separation wall 33a is preferably within a range from 1 mm to 50 mm. However, it is not limited thereto. When the height of the separation wall 33a is less than 1 mm, the coating liquid 103 that has once flowed into the receiving portion 33c of the separation member 33 tends to overflow toward the coating side. Moreover, when the height of the separation wall 33a exceeds 50 mm, the flowing speed of the curtain-like film 25 that flows down while coming into contact with the coating-side sidewall of the separation wall 33a slows down. Thus, the end portion of the coating film 23 that is to be formed on the base material 21 tends to become thick, thereby lowering the flatness of the coating film 23.
The height of the sidewall 33b is not particularly limited, and may be suitably selected according to the object.
The coating liquid 103 that flows down from the separation member 33 and the coating liquid 103 that falls down onto a coating liquid flowing member 39 flow down along the coating liquid flowing member 39.
Base Material Supporting Member
As illustrated in
To ensure such function, the length L of the base material supporting member 35 in the width direction of the base material 21 is preferably within a range from 30 mm to 300 mm. However, it is not limited thereto. When the length L is within the range from 30 mm to 300 mm, it is possible to prevent the base material 21 to be supported on the upper side flat portion 35a of the base material supporting member 35 from fluttering, while ensuring the rigidity of the coating width control member 27 that is to be cantilevered by the casing as illustrated in
As illustrated in
In contrast, as illustrated in
In
As illustrated in
As long as the end portion of the bending member 37 (37a) for bending the base material 21 has a curvature, the bending member 37 (37a) is not limited to the one disclosed in the drawing of the present application, and a configuration such as a guide disclosed in Japanese Unexamined Patent Application Publication No. 2002-86040 may also be used.
Moreover, as illustrated in
Coating Liquid Flowing Member
The coating liquid flowing member 39 is coupled to the separation member 33 such that the coating liquid separated by the separation member 33 flows along. It is preferable that a top surface 39a of the coating liquid flowing member 39 on which the curtain-like film 25 falls down is formed in a shape having a curvature. As illustrated in
As illustrated in
Next, arrangements of the members are described with reference to the drawings.
The separation wall 33a of the separation member 33 is disposed such that the surface direction of the separation wall 33a is in parallel with the conveying direction of the base material 21. As illustrated in
In the embodiment of
By disposing the base material supporting member 35 and the separation member 33 so that the distance j between the separation wall 33a and the upper side flat portion 35a, and the inclination angle θ2 satisfy the conditions as described above, it is possible to prevent the coating film end portion from being locally thickened due to the contraction of the edge portion of the curtain-like film 25.
Distance between the receiving portion 33c of the separation member 33 and the edge 35c of the base material supporting member 35 will now be described with reference to
In
The base material 21 is conveyed in a state so that tension is applied to the base material 21 by the first conveyance roller 15 and the second conveyance roller 17. It is preferable that the upper side flat portion 35a of the base material supporting member 35 is placed at a higher position by 0 mm to 10 mm than the height position of the base material 21, when the base material 21 is stretched between the first conveyance roller 15 and the second conveyance roller 17, while the base material supporting member 35 is not installed. By doing so, it is possible to apply tension to the base material 21 furthermore, and prevent the end portion of the base material 21 from fluttering during conveyance.
The separation member 33 of the coating width control member 27 is disposed such that the upper end of the separation member 33 is overlapped with the inner end of the base material supporting member 35 when viewed from above. An area of the end portion of the base material 21 that has passed below the separation member 33 will not be coated with the coating liquid 103, and becomes an uncoated portion 45.
When viewed from above, the base material supporting member 35, the separation member 33, and the coating liquid flowing member 39 are linearly arranged in the base material width direction.
The liquid receiving member 43 for receiving the flowed coating liquid may be disposed below the coating liquid flowing member 39. When the liquid receiving member 43 is to be provided, it is preferable that the width of the liquid receiving member 43 is larger than the width of the coating liquid flowing member 39 such that the flowed coating liquid 103 can be collected without fail. The collected liquid collected by the liquid receiving member 43 may be suitably reused as the coating liquid 103.
Next, a curtain coating method according to the embodiment of the present invention will be described with reference to
As illustrated in
As illustrated in
The base material 21 passes below the separation member 33 and is conveyed in the downstream direction, while tension is applied by coming into contact with the base material supporting member 35 provided in the coating width control member 27. An area of the base material 21 that has passed below the separation member 33 becomes the uncoated portion 45 on which the coating film 23 is not formed.
A supporting member for supporting a base material such as a supporting roller need not be particularly provided at the center portion of the base material 21 in the width direction.
The base material 21 formed with the coating film 23 is further conveyed in the downstream direction by the second conveyance roller 17, and is dried by a drying unit disposed at the downstream side of the device.
The material of the separation member 33, the base material supporting member 35, the bending members 37 (37a and 37b), and the coating liquid flowing member 39 may be suitably selected according to the object. For example, metals such as stainless steel, aluminum, and iron, or these types of metals applied with hard chromium plating, and resins such as polytetrafluoroethylene (Teflon (registered trademark)), polyethylene terephthalate (PET) resin, acrylonitrile-butadiene-styrene (ABS) resin, fiber-glass reinforced plastic (FRP), and nylon may be used.
Hereinafter, examples of the present invention will be described.
The coating film 23 was formed on the base material 21 using the curtain coating device 100 of the present invention. Thereafter, variation in the width of the uncoated portion 45 of the coating film end portion was evaluated.
The coating conditions are as follows:
1) Base material: paper weighing 60 grams per square meter
2) Base material speed: 450 m/minute
3) Approximate amount of liquid adhesion: wet 30 g/m2
4) Base material width: 1000 mm
5) Coating width: 990 mm (install the coating width control member such that 5 mm of the uncoated portion is formed on both ends of the base material)
6) Coating liquid: polyvinyl alcohol aqueous solution (20 wt %)
7) Coating liquid viscosity: 1000 mPa·s (value measured by a type B viscometer)
8) Separation member: included
9) Base material supporting member: included
10) Bending member: included
Method for Evaluating Width Variation
In the area of the coated base material as much as 1 meter in length in the base material traveling direction, a maximum value dmax and a minimum value dmin of the distance d between the endmost portion of the base material and the endmost portion of the coated portion was measured, and a difference Δd (=dmax−dmin) was calculated. Δd was calculated for 30 locations that do not overlap with each other. Next, an average value Δdave of the obtained 30 Δd was calculated.
The evaluation criteria for Δdave are as follows:
A: Variation in distance between the base material end portion and the coated end portion is extremely small (Δdave≤1.5 mm)
B: Variation in distance between the base material end portion and the coated end portion is small (1.5 mm<Δdave≤2.5 mm)
C: Variation in distance between the base material end portion and the coated end portion is large (2.5 mm<Δdave≤3.5 mm)
D: Variation in distance between the base material end portion and the coated end portion is extremely large (3.5 mm<Δdave)
The coating conditions 6) to 9) in the first example were changed as follows, and the coating film 23 was formed on the base material 21 using the curtain coating device 100 of the present invention. Thereafter, variation in the width of the uncoated portion 45 of the coating film end portion was evaluated. The conditions 1 to 5 were the same as those in the first example.
6) Coating liquid: adhesive
7) Coating liquid viscosity: 2000 mPa·s (value measured by a type B viscometer)
8) Separation member: included
9) Base material supporting member: included
10) Bending member: included
The coating film 23 was formed on the base material 21 using the curtain coating device 100 of the present invention. Thereafter, variation in the width of the uncoated portion 45 of the coating film end portion was evaluated.
The coating conditions are as follows:
1) Base material: paper weighing 60 grams per square meter
2) Base material speed: 450 m/minute
3) Approximate amount of liquid adhesion: wet 30 g/m2
4) Base material width: 1000 mm
5) Coating width: 990 mm (install the coating width control member such that 5 mm of the uncoated portion is formed on both ends of the base material)
6) Coating liquid: polyvinyl alcohol aqueous solution (20 wt %)
7) Coating liquid viscosity: 1000 mPa·s (value measured by a type B viscometer)
8) Separation member: included
9) Base material supporting member: included
10) Bending member: not included
The coating conditions 6) to 9) in the first example were changed as follows, and the coating film was formed on the base material using a conventional curtain coating device to which the present invention is not applied. Thereafter, variation in the width of the uncoated portion of the coating film end portion was evaluated. The conditions 1 to 5 were the same as those in the first example.
6) Coating liquid: polyvinyl alcohol aqueous solution (20 wt %)
7) Coating liquid viscosity: 1000 mPa·s (value measured by a type B viscometer)
8) Separation member: not included
9) Base material supporting member: not included
10) Bending member: included
The coating conditions 6) to 9) in the first example were changed as follows, and the coating film was formed on the base material using a conventional curtain coating device to which the present invention is not applied. Thereafter, variation in the width of the uncoated portion of the coating film end portion was evaluated. The conditions 1 to 5 were the same as those in the first example.
6) Coating liquid: adhesive
7) Coating liquid viscosity: 2000 mPa·s (value measured by a type B viscometer)
8) Separation member: not included
9) Base material supporting member: not included
10) Bending member: included
The coating conditions 6) to 9) in the first example were changed as follows, and the coating film was formed on the base material using a conventional curtain coating device to which the present invention is not applied. Thereafter, variation in the width of the uncoated portion of the coating film end portion was evaluated. The conditions 1 to 5 were the same as those in the first example.
6) Coating liquid: polyvinyl alcohol aqueous solution (20 wt %)
7) Coating liquid viscosity: 1000 mPa·s (value measured by a type B viscometer)
8) Separation member: included
9) Base material supporting member: not included
10) Bending member: included
The coating conditions 6) to 9) in the first example were changed as follows, and the coating film was formed on the base material using a conventional curtain coating device to which the present invention is not applied. Thereafter, variation in the width of the uncoated portion of the coating film end portion was evaluated. The conditions 1 to 5 were the same as those in the first example.
6) Coating liquid: adhesive
7) Coating liquid viscosity: 2000 mPa·s (value measured by a type B viscometer)
8) Separation member: included
9) Base material supporting member: not included
10) Bending member: included
In the fourth example, a method for manufacturing a thermosensitive recording adhesive sheet using the curtain coating device 100 of the present invention will be described.
An adhesive layer was formed by applying the coating liquid 103 on a release paper using the curtain coating device 100 of the present invention. Next, a thermosensitive recording adhesive sheet was formed by adhering the release paper on which the adhesive layer was formed with a sheet on which a thermal recording layer was formed, such that the side of the sheet on which the thermal recording layer was not formed comes into contact with the adhesive layer.
An arrangement of the coating width control member 27 was adjusted so that about 5 mm of an adhesive uncoated area was formed on both end portions of the release layer of the thermosensitive recording adhesive sheet, in the width direction of the release layer. Δdave of a boundary (in other words, an end portion of an adhesive coated area) between the adhesive coated area and the uncoated area was calculated and found to be 1.14 mm. Consequently, the trimming width of the uncoated area in the thermosensitive recording adhesive sheet became the minimum of 5.57 mm, and it was possible to utilize more coating area for manufacturing the thermosensitive recording adhesive sheet.
A thermosensitive recording adhesive sheet was created similarly to the fourth example except that a conventional curtain coating device that does not include the base material supporting member was used. Δdave in the thermosensitive recording adhesive sheet was 5.72 mm, and thus the trimming width of the uncoated area needed to be 7.86 mm even at minimum. Consequently, a lot of coated area needed to be cut off.
Next, the results of the first to the third examples and the first to the fourth comparative examples are summarized in table 1.
Aspects of the present invention are as follows, for example.
First Aspect
A curtain coating device includes a curtain coating member, a conveyance unit, a separation member, and a base material supporting member. The curtain coating member creates a curtain-like film of coating liquid and makes the curtain-like film flow down. The conveyance unit conveys a base material to which the curtain-like film is to be applied. The separation member includes a receiving portion inclined downward from inside to outside in a width direction of the curtain-like film, and separates an end portion of the curtain-like film having flowed down by receiving the end portion with the receiving portion above the base material. The base material supporting member is disposed inside in the width direction of the curtain-like film than the receiving portion of the separation member, and supports the base material on an upper side flat portion while the base material is being conveyed.
Second Aspect
The curtain coating device according to the first aspect further includes a bending member. The bending member is provided on an upstream side in the base material conveying direction than the position at which the curtain-like film reaches the base material and than the separation member, and bends an end portion of the base material.
Third Aspect
In the curtain coating device according to the first or the second aspect, a minimum distance between an upper end portion of the base material supporting member and the receiving portion is within a numerical value range obtained by adding 0.1 mm to 20 mm to thickness of the base material.
Fourth Aspect
In the curtain coating device according to any one of the first to the third aspects, the receiving portion is inclined relative to the upper side flat portion at an angle from 30 degrees to 60 degrees.
Fifth Aspect
In the curtain coating device according to any one of the first to the fourth aspects, a distance between the upper side flat portion and a lower side edge of the receiving portion is equal to or less than 3 mm.
Sixth Aspect
In the curtain coating device according to any one of the first to the fifth aspects, the conveyance unit includes a first roller and a second roller. The upper side flat portion is placed at a higher position by 0 mm to 10 mm than a position of the base material, when the base material is stretched between the first roller and the second roller, while the base material supporting member is not provided.
Seventh Aspect
The curtain coating device according to any one of the first to the sixth aspects further includes a coating liquid flowing member. The coating liquid flowing member is coupled to the separation member such that a coating liquid separated by the separation member flows along. A surface of the coating liquid flowing member along which the separated coating liquid flows is formed in a shape having a curvature.
Eighth Aspect
In the curtain coating device according to any one of the second to the seventh aspects, the bending member, the separation member, and the base material supporting member are capable of moving in the width direction of the curtain-like film.
Ninth Aspect
A curtain coating method includes: creating a first curtain-like film and making the first curtain-like film flow down by a curtain coating member; separating an end portion of the first curtain-like film that has flowed down by receiving the end portion of the first curtain-like film using a receiving portion of a separation member provided on a flow passage of the first curtain-like film; and conveying a base material such that the base material passes a position where a second curtain-like film that is not separated and that flows down in a curtain shape flows. The base material passes above a base material supporting member while tension is applied to the base material by the base material supporting member. The base material is disposed inside in a width direction of the first curtain-like film than the receiving portion of the separation member provided on an upstream side in a conveying direction than a flowing down position of the second curtain-like film.
With the present invention, it is possible to advantageously obtain a curtain coating device capable of preventing the base material from flapping and keeping the uncoated width of the end portion in the base material width direction uniform. Moreover, with the present invention, by using the curtain coating device of the present invention, it is possible to advantageously reduce the cutting-off amount of the uncoated portion in the cutting-off process, utilize more coated area, and improve productivity.
The above-described embodiments are illustrative and do not limit the present invention. Thus, numerous additional modifications and variations are possible in light of the above teachings. For example, at least one element of different illustrative and exemplary embodiments herein may be combined with each other or substituted for each other within the scope of this disclosure and appended claims. Further, features of components of the embodiments, such as the number, the position, and the shape are not limited the embodiments and thus may be preferably set. It is therefore to be understood that within the scope of the appended claims, the disclosure of the present invention may be practiced otherwise than as specifically described herein.
The method steps, processes, or operations described herein are not to be construed as necessarily requiring their performance in the particular order discussed or illustrated, unless specifically identified as an order of performance or clearly identified through the context. It is also to be understood that additional or alternative steps may be employed.
Number | Date | Country | Kind |
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2017-053408 | Mar 2017 | JP | national |
2018-032457 | Feb 2018 | JP | national |
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