KR20120094851A - Gravure coating apparatus - Google Patents

Abstract

PURPOSE: A gravure coating apparatus is provided to effectively prevent the generation of vibrations to a gravure roll when coating liquid is transferred to a substrate. CONSTITUTION: A gravure coating apparatus includes a gravure roll(2), a coating unit, and coating liquid supplying units(4, 5). The gravure roll transfers coating liquid to a substrate(1). The coating unit includes a sealed chamber(7) in which the coating liquid is applied to the gravure roll. The coating liquid supplying units supply the collating liquid to a coating liquid collector in the sealed chamber. The sealed chamber includes a doctor blade(8), a sealing plate(9), and an inner member(10). The doctor blade eliminates excessive coating liquid attached on the gravure roll. The sealing plate seals the upper side of the coating liquid collector. The inner element is installed between the sealing plate and the doctor blade.

Description

Gravure coating apparatus

The present invention provides a gravure roll having a gravure roll for transferring the coating liquid to the surface of the substrate, a coating unit having a closed chamber for applying the coating liquid to the gravure roll, and a coating liquid supply means for supplying the coating liquid into the coating liquid 형성된 formed in the closed chamber. It relates to a coating device.

Conventionally, as shown in Japanese Patent Laid-Open No. 2001-101041, while transferring the base material (coated object) onto which the coating liquid is transferred, onto the gravure roll by a backup roll, the coating liquid on the gravure roll is transferred to the coated object. A coating apparatus, comprising: a coating liquid (shielding space) for receiving a coating liquid applied to the gravure roll, and a filling part for applying a coating liquid to the gravure roll by providing a free plate in the shielding space. As the coating liquid flows along the inclined surface provided on the platen, the air and the coating liquid in the cells formed on the circumferential surface of the gravure roll are actively replaced.

Further, as shown in Japanese Patent Laid-Open No. 10-71703 and Japanese Patent Laid-Open No. 2003-251241, the interior of the ink chamber is opened by an inner doctor (ink rectifying plate) disposed in a coating block (ink chamber). The inner doctor is tilted in the direction along the gravure roll (print plate body) and the tip edge of the inner doctor is installed in a state in which the inner doctor is placed close to the gravure roll. When the coating liquid passes through a narrow gap with the inner doctor, a predetermined resistance is applied to improve the adhesion of the coating liquid to the gravure roll.

In the inventions disclosed in the above publications, the coating liquid 굄 formed in the sealed chamber is positioned on the upstream side of the gravure roll by disposing the platen or inner doctor or the like in a sealed chamber provided for applying the coating liquid to the gravure roll. The flow velocity is defined when the coating liquid passes through the coating liquid passage by forming a narrowed coating liquid passage between the upstream chamber and the downstream chamber located at the downstream chamber located on the downstream side of the upstream chamber and the rotational direction. It is configured to raise. According to the above structure, it is possible to promote the substitution of the microbubble remaining in the gravure roll cell and the coating liquid in the installation portion of the platen or inner doctor to improve the applicability of the coating liquid to the gravure roll to some extent. It was possible. However, since both the air remaining in the gravure roll cell and the air adhering to the circumferential surface of the gravure roll (air boundary layer) are introduced into the sealed chamber, it is necessary to completely remove such air in the sealed chamber. It was difficult, and there existed a problem that coating stain was easy to form in a base material because of the presence of the said air.

In the gravure coating apparatus which formed the said coating liquid channel | path by confirming the generation | occurrence | production state of the bubble in the said hermetic chamber by forming the said airtight chamber with transparent acrylic material, and disposing a plate etc. in a hermetic chamber, As a result of experiments for measuring the internal pressure of the closed chamber, data as shown in FIG. 9 was obtained. The pressure of the coating liquid in the narrow coating liquid passage 32 formed by disposing the platen 31 in the coating liquid # 30 of the hermetic chamber from the data is applied to the downstream side of the platen 31. Although slightly higher than the upstream chamber 33 of the coating liquid # 30 located, it is the pressure level of the coating liquid in the downstream chamber 34 of the coating liquid # 30 located in the downstream of the platen 31, The said coating It was confirmed that it was remarkably low compared with the installation part vicinity of the doctor blade 35 provided in the downstream end of the liquid 30.

Therefore, even if the narrow coating liquid passage 32 is formed between the upstream chamber 33 and the downstream chamber 34 of the coating liquid # 30, in the portion of the gravure roll 2 in the cell. Both of the air stayed and the air attached to the circumferential surface of the gravure roll 2 cannot be sufficiently removed, but rather the air is removed from the installation portion of the coating liquid passage 32, and the installation of the doctor blade 35 is performed. It was also confirmed from the generation | occurrence | production state of the bubble in the coating liquid # 30 formed with the said transparent acrylic with much air quantity removed from the part. As described above, in the case where the bubbles on the gravure roll 2 and the coating liquid are replaced in the mounting portion of the doctor blade 35, bubbles are likely to be dense near the mounting portion of the doctor blade 35. For this reason, it was inevitable that the coating efficiency of the coating liquid to the gravure roll 2 will become the deterioration gradually.

In addition, as shown in Fig. 10, the ink rectifying plate 36 provided in the ink cap of the hermetically sealed chamber is installed in an inclined state in the direction along the gravure roll 2 (printing plate body). When the air retained in the cell of the roll 2 and the air attached to the circumferential surface of the gravure roll 2 are removed, the bubble K formed from the air is formed on the wall surface of the ink rectifying plate 36. The tip of the ink rectifying plate 36 is spaced apart from the circumferential surface of the gravure roll 2 with the rotation of the gravure roll 2. V), the bubble K easily enters the downstream chamber of the ink B, and there is a problem.

The present invention has been made in view of the above-mentioned problems, and the gravure coating plant can effectively improve the coating property of the coating solution on the gravure roll by appropriately replacing the coating liquid in the air and the sealed chamber attached to the gravure roll. It aims to provide.

The present invention provides a coating unit having a gravure roll for transferring a coating liquid to the surface of the substrate, a coating unit having a closed chamber for applying the coating liquid to the gravure roll, and a coating liquid supplying means for supplying the coating liquid into the coating liquid 형성된 formed in the closed chamber. In the gravure coating apparatus provided with the above, the said sealing chamber is a doctor blade which seals the downstream direction of the gravure roll rotation direction of coating liquid #, and removes the excess coating liquid adhered to the said gravure roll, and the gravure of the coating liquid #. A sealing plate for sealing the upstream side of the roll rotation direction, and an inner member provided between the sealing plate and the doctor blade so that the tip portion always contacts the peripheral surface of the gravure roll.

According to the said structure, since the inner member was arrange | positioned in the coating liquid 의 of an airtight chamber, and the tip part was always made to contact the circumferential surface of the said gravure roll, it adhered to the air which stayed in the cell of the gravure roll and the circumferential surface of the gravure roll. Each air can be effectively removed by an inner member in accordance with the rotation of the gravure roll, so as to reliably replace the air in the coating liquid 상기 of the closed chamber and attached to the gravure roll in the coating liquid 굄. , The coating solution is appropriately applied to the circumferential surface of the gravure roll, and there is an advantage that the coating solution can be efficiently filled in the cell.

In the gravure coating device, a first coating liquid supply cylinder for supplying the coating liquid to the upstream chamber of the coating liquid 하는 located in the rotational direction upstream of the gravure roll than the inner member, and in the rotational direction downstream of the gravure roll than the inner member. It is preferable to set it as the structure provided with the 2nd coating liquid supply passage which supplies a coating liquid to the downstream chamber of the coating liquid # located in the following.

Coating to the 1st coating liquid supply passage which supplies a coating liquid to the upstream chamber located in the rotation direction upstream of a gravure roll rather than an inner member, and the downstream chamber of the coating liquid 위치 located in a rotation downstream downstream than a gravure roll as mentioned above. According to the structure which provides the 2nd coating liquid supply passage which supplies a liquid, even when the inside of coating liquid # is completely divided into the said upstream chamber and the downstream chamber by the said inner member, a coating liquid is provided in the said upstream chamber and the downstream chamber. It is possible to make it fully filled. Therefore, the tip of the inner member can be strongly pressed against the circumferential surface of the gravure roll to effectively replace the coating liquid in the coating liquid 과 and the air attached to the gravure roll, and at the same time in the upstream chamber of the coating liquid 상기. It is possible to suppress the air removed from the gravure roll by the member from flowing into the downstream chamber from the upstream chamber, and the air introduced into the downstream chamber is reattached to the surface of the gravure roll with respect to the installation portion of the doctor blade. There is an advantage that can effectively prevent the occurrence of the situation.

In the gravure coating device, a communication path for communicating an upstream chamber of the coating liquid 하는 located in the rotational direction upstream of the gravure roll than the inner member and a downstream chamber of the coating liquid 위치 located in the rotational direction downstream side of the gravure roll than the inner member. Is formed in a hermetically sealed chamber, and it is also preferable to have a structure provided with a single coating liquid supplying means for supplying the coating liquid into the upstream chamber of the coating liquid #.

As described above, a communication path for communicating an upstream chamber of the coating liquid 하는 located in the rotational direction upstream of the gravure roll than the inner member and a downstream chamber of the coating liquid 하는 located in the rotational downstream side of the gravure roll than the inner member is provided in the sealed chamber. In addition, when the structure is provided with a single coating liquid supplying means for supplying the coating liquid into the upstream chamber of the coating liquid #, the coating liquid is applied to both the upstream chamber and the downstream chamber of the coating liquid # in a simple configuration. In the filled state, the coating liquid in the coating liquid 과 and air adhered to the gravure roll can be effectively replaced.

Moreover, in the said gravure coating apparatus, it is also preferable that the said inner member is comprised by the plate-shaped member provided in the inclined state opposing the rotation direction of the gravure roll.

As described above, when the inner member is formed by a plate-like member provided in an inclined state opposite to the rotational direction of the gravure roll, the tip of the inner member is urged on the downstream side in the rotational direction in accordance with the rotation of the gravure roll. It is possible to maintain the state in contact with the peripheral surface of the gravure roll. Further, the air removed from the gravure roll is guided to be separated from the circumferential surface of the gravure roll according to the inner member, thereby effectively preventing the air separated from the circumferential surface of the gravure roll from remaining in the coating liquid. It is possible to do this, and there is an advantage of effectively suppressing the occurrence of a situation where the air is reattached to the gravure roll.

Moreover, in the said gravure coating apparatus, it is also preferable to set it as the structure which arrange | positions the inner member which becomes an elastic inner roll with a rotating material in a hermetically sealed chamber, and always makes the circumferential surface contact with a gravure roll.

According to the said structure, the inner member which becomes an elastic inner roll in a hermetically sealed chamber is contacted with the gravure roll, and is rotated, and it adheres to the coating liquid and gravure roll in the coating liquid 방지, preventing a large load from acting on the gravure roll. It can effectively replace air.

Further, in the gravure coating apparatus, the pressure contact force adjustment for adjusting the pressure contact force of the inner member to the gravure roll by driving the inner member while slidably disposing the inner member that becomes a block-like body in the hermetically sealed chamber. It is also preferable to set it as the structure which provided the mechanism.

According to the above configuration, the tip of the inner member, which becomes a block-shaped body, is brought into contact with the gravure roll to effectively promote the replacement of air adhered to the gravure roll with the coating liquid in the coating liquid 과 and functions as a vibration damping member of the gravure roll. Since it can be combined with the inner member, there is an advantage that the vibration can be effectively prevented from occurring in the gravure roll when the coating liquid is transferred to the substrate via the gravure roll.

According to the present invention having the above-described configuration, the applicability of the coating solution to the gravure roll can be effectively improved by appropriately replacing the air adhered to the gravure roll and the coating solution in the hermetically sealed chamber.

BRIEF DESCRIPTION OF THE DRAWINGS Explanatory drawing which shows 1st Embodiment of the gravure coating apparatus which concerns on this invention.
2 is a cross-sectional view showing a specific configuration of a hermetic chamber.
Fig. 3 is a relative view of Fig. 2 showing a second embodiment of the gravure coating device according to the present invention.
Fig. 4 is a relative view of Fig. 2 showing a third embodiment of a gravure coating device according to the present invention.
Fig. 5 is a relative diagram showing a fourth embodiment of a gravure coating device according to the present invention.
Fig. 6 is a relative diagram showing a fifth embodiment of a gravure coating device according to the present invention.
Fig. 7 is a relative view of Fig. 2 showing a sixth embodiment of the gravure coating device according to the present invention.
Fig. 8 is a relative view of Fig. 2 showing a seventh embodiment of a gravure coating device according to the present invention.
9 is an explanatory view showing an action state of a pressure inside a sealed chamber of a conventional gravure coating device;
10 is an explanatory diagram showing a state of generation of bubbles in a hermetically sealed chamber of a conventional gravure coating device;

1 and 2 show a first embodiment of a gravure coating device according to the present invention. The gravure coating machine is a gravure roll (2) for applying a coating liquid to a sheet-like substrate 1, which is disposed in a conveying path of the substrate 1 and transfers the coating liquid to the surface thereof, and the gravure roll. And a coating unit 3 for applying the coating liquid to (2), first coating liquid supply means 4 and second coating liquid supply means 5 for supplying the coating liquid to the coating unit 3. .

The substrate 1 is introduced between the gravure roll 2 and the backup roll 21 provided so as to face the gravure roll 2 so as to be conveyed from the upper side to the lower side and in the opposite direction to the conveying direction of the substrate 1. The coating solution is applied to the surface of the gravure roll 2 in contact with the substrate 1 while driving the roll 2 in rotation.

As shown in FIG. 2, the said coating unit 3 is provided with the hermetically sealed chamber 7 which has the coating liquid # 6 which becomes the space part opened in the form which opposes the circumferential surface of the gravure roll 2 at the same time. And a doctor blade 8 made of a steel sheet member or a plastic sheet member (inner doctor), etc., is mounted at the upper front end of the hermetic chamber 7, that is, at the downstream end in the rotation direction of the gravure roll 2. Moreover, the sealing plate 9 which consists of a steel plate material or a plastic plate material etc. is attached to the front lower end part of the said airtight chamber 7, ie, the upstream end part in the rotation direction of the gravure roll 2. As shown in FIG. In the sealed chamber 7, an inner member 10 for promoting the replacement of the air attached to the gravure roll 2 with the coating liquid in the coating liquid # 6 is provided with the doctor blade 8 and the sealing plate. Exposed between (9).

In the doctor blade 8 and the sealing plate 9, the upper edge and the lower edge of the front side of the coating liquid 6 are formed as the tip thereof is pressed against the peripheral surface of the gravure roll 2. It is comprised so that it may seal and hold the said coating liquid # 6 in a sealed state. In addition, the doctor blade 8 scrapes the excess coating liquid applied on the circumferential surface of the gravure roll 2 in the coating liquid 6 6 in accordance with the rotation of the gravure roll 2 to thereby remove the gravure roll. It has a function which sets the thickness of the coating liquid apply | coated on (2) uniformly.

The inner member 10 is a steel plate member whose base end portion is fixed to the inclined surface on which the front portion formed on the back portion of the coating liquid 6 is lowered through the locking member 11. Or a plate member (inner doctor) made of plastic. As the tip portion of the inner member 10 is held in contact with the circumferential surface of the gravure roll 2, the inside of the coating liquid 6 6 is gravure roll 2 than the inner member 10. ) Is partitioned into an upstream chamber 12 located in an upstream side of the rotational direction and a downstream chamber 13 of the coating liquid 6 6 located in a rotational downstream side of the gravure roll 2 than the inner member 10. .

In addition, the inner member 10 has a gravure roll (reverse angle) as the installation angle α with respect to the tangent A extending in the rotational direction from the contact portion with respect to the gravure roll 2 is set to an acute angle (reverse angle). It is installed in an inclined state to face in the rotation direction of 2). Then, the tip of the inner member 10 in contact with the circumferential surface of the gravure roll 2 follows the rotation of the gravure roll 2, that is, the urging on the downstream side (the upper side in FIG. 2) in the rotation direction ( As it sticks, it is hold | maintained in the state which was pressed against the circumferential surface of the said gravure roll 2.

As shown in Fig. 1, the first and second coating liquid supply means 4 and 5 respectively include a coating liquid tank 14 containing a coating liquid, such as ink for printing, and the coating liquid tank 14, respectively. It has the feed pump 15 which supplies the coating liquid in inside to the coating liquid # 6 of the said airtight chamber 7. The first coating liquid supply means 4 includes a first coating liquid supply passage 16 for supplying the coating liquid discharged from the feed pump 15 to the upstream chamber 12 of the coating liquid # 6. The 1st coating liquid conveyance path 17 which returns the coating liquid discharged | emitted from the upstream chamber 12 of the said coating liquid # 6 to the said coating liquid tank 14 is provided. On the other hand, the second coating liquid supplying means 5 includes a second coating liquid supply passage 18 for supplying the coating liquid discharged from the feed pump 15 to the downstream chamber 13 of the coating liquid # 6. The 2nd coating liquid conveyance path 19 which returns the coating liquid discharged | emitted to the downstream chamber 13 of the said coating liquid # 6 to the said coating liquid tank 14 is provided.

In the above configuration, the coating liquid contained in each coating liquid tank 14 is transferred to the coating liquid 6 6 in accordance with the operation of the feed pumps 15 of the first and second coating liquid supply means 4, 5. While supplying into the upstream chamber 12 and the downstream chamber 13, respectively, the said gravure roll 2 is rotationally driven in the same direction as the conveyance direction of the base material 1 at a predetermined speed. The air remaining in the cell as the gravure roll 2 rotates and the air (air in the boundary layer) adhering to the circumferential surface of the gravure roll 2 are respectively removed by the inner member 10. As air and the coating liquid in the coating liquid # 6 are replaced, the coating liquid is appropriately applied to the circumferential surface of the gravure roll 2, and the coating liquid is efficiently filled in the cell.

The air carried into the downstream chamber 13 from the upstream chamber 12 of the coating liquid # 6 is not removed from the gravure roll 2 with respect to the installation portion of the inner member 10. It removes by the said doctor blade 8 provided in the lowest part in (), and is substituted by the coating liquid in the said coating liquid # 6. In addition, the coating liquid attached on the circumferential surface of the gravure roll (2) is scraped off by the doctor blade (8), so that the thickness of the coating liquid is uniform, so that the coating liquid is rotated in the gravure roll (2). Therefore, it is transferred to the surface of the base material 1 as it is conveyed to the contact portion with the base material 1.

In addition, after the air removed from the gravure roll 2 by the inner member 10 in the sealed chamber 7 is guided to the proximal end side of the inner member 10 (see FIG. 2), the inner member 10 It discharges into the coating liquid tank 14 through the 1st coating liquid conveyance path 17 of the 1st coating liquid supply means 4 connected to the base end part of (FIG. 1). In addition, the air removed from the gravure roll 2 by the doctor blade 8 is guided to the upper portion of the coating liquid 6 6, and then the second coating liquid is connected to the upper end surface of the hermetic chamber 7. It conveys into the coating liquid tank 14 through the 2nd coating liquid conveyance path 19 of the means 5.

Thus, the coating unit 3 and the sealing chamber 7 which have the gravure roll 2 which transfers a coating liquid to the surface of the base material 1, and the closed chamber 7 which apply | coats a coating liquid to the said gravure roll 2, A gravure coating device having a coating solution supply means (4) for supplying a coating solution into a coating solution (6) formed in the present invention, wherein the sealing chamber (7) seals the downstream side in the gravure roll rotational direction of the coating solution (6). At the same time, the doctor blade 8 for removing the excess coating liquid attached to the gravure roll 2, the sealing plate 9 for sealing the downstream side of the gravure roll rotation direction of the coating liquid # 6, and Since the inner member 10 is provided between the sealing plate 9 and the doctor blade 8 so that the tip portion always comes into contact with the circumferential surface of the gravure roll 2, the gravure roll 2 Air and coating liquid in the sealed chamber (7) There is an advantage that it is possible to effectively improve the applicability of the coating solution to the gravure roll 2 by appropriate substitution.

That is, when the coating liquid is applied to the gravure roll 2 using the sealed chamber 7, the coating liquid is scattered to the outside of the sealed chamber 7 or the coating liquid is applied at the time of coating the coating liquid. It is possible to effectively prevent the occurrence of a situation in which the working environment deteriorates due to evaporation of the organic solvent in the solvent. On the other hand, the air retained in the cell of the gravure roll 2 and the air attached to the circumferential surface of the gravure roll 2 are carried into the coating liquid 굄 6 of the hermetic chamber 7 and are easy to stay therein, It was extremely difficult to completely remove the air from the gravure roll 2.

However, when the inner member 10 is arrange | positioned in the coating liquid # 6 of the airtight chamber 7 as mentioned above, and the tip part is always made to contact the circumferential surface of the said gravure roll 2, the gravure roll Both the air retained in the cell of (2) and the air attached to the circumferential surface of the gravure roll 2 can be effectively removed by the inner member 10 in accordance with the rotation of the gravure roll 2. . Therefore, in the coating liquid # 6 of the said airtight chamber 7, it is possible to reliably substitute the coating liquid in the said coating liquid # 6 and the air adhering to the said gravure roll 2. By this, gravure A coating liquid can be suitably apply | coated to the peripheral surface of the roll 2, and a coating liquid can be efficiently filled in the cell.

Moreover, in the said 1st Embodiment, the 1st coating liquid supply passage 16 which supplies a coating liquid to the upstream chamber 12 located in the rotation direction upstream of the gravure roll 2 rather than the inner member 10 is provided. The second coating liquid supply passage 18 for supplying the coating liquid to the downstream chamber 13 of the coating liquid 6 6 located in the rotational downstream side of the first coating liquid supply means 4 and the gravure roll 2 is provided. Since the second coating solution supply means 5 is provided, the inner member 10 is completely divided into the upstream chamber 12 and the downstream chamber 13 by the inner member 10. Also when it does, the coating liquid can fully be filled in the said upstream chamber 12 and the downstream chamber 13, respectively.

Therefore, the tip of the inner member 10 is firmly pressed against the circumferential surface of the gravure roll 2 so as to reliably replace the coating liquid in the coating liquid # 6 and the air attached to the gravure roll 2. At the same time, the air removed from the gravure roll 2 by the inner member 10 in the upstream chamber 12 of the coating liquid # 6 flows into the downstream chamber 13 from the upstream chamber 12. Can be effectively prevented. For this reason, the air which flowed into the downstream chamber 13 from the upstream chamber 12 of the said coating liquid # 6 stays in the vicinity of the installation part of the said doctor blade 8, and reattaches to the surface of the gravure roll 2. There is an advantage that can effectively prevent the occurrence of a situation.

In addition, the inner member 10 disposed in the coating liquid # 6 as described above is provided in an inclined state so as to face the rotation direction of the gravure roll 2, instead of the first embodiment shown in FIG. 3. As shown in the second embodiment, the plate-shaped member made of steel or the plate-shaped member made of plastic so as to conform to the rotational direction of the gravure roll 2 between the doctor blade 8 and the sealing plate 9 (inner doctor). And an inner member 20 of the gravure roll 2, and setting the installation angle β with respect to the tangent B extending in the rotational direction from the contact portion with respect to the gravure roll 2 to an obtuse angle (natural angle). The tip of the inner member 20 is preferably configured to always be in contact with the circumferential surface of the gravure roll 2.

However, as shown in the second embodiment, when the inner member 20 is installed so as to conform to the rotation direction of the gravure roll 2, the inner member 10 in contact with the circumferential surface of the gravure roll 2 is formed. The tip of the inner member 20 is biased in the direction away from the circumferential surface of the gravure roll 2 as the gravure roll 2 rotates (see the imaginary line in FIG. 9). It is difficult to keep it in contact with the peripheral surface of (2) at all times. Moreover, the air removed from the gravure roll 2 tends to remain in the vicinity of the tip of the inner member 20, and the air (bubble K) separated from the circumferential surface of the gravure roll 2 is the gravure roll ( It tends to be easy to reattach to 2).

Therefore, as in the first embodiment shown in FIG. 2, the inner member 10 is provided in an inclined state so as to face the rotation direction of the gravure roll 2 in the coating liquid # 6. It is preferable that the tip portion of the member 10 is biased on the downstream side in the rotational direction in accordance with the rotation of the gravure roll 2, and maintained so as to be in contact with the circumferential surface of the gravure roll 2. In addition, when the inner member 10 as shown in FIG. 2 is installed so that it may oppose in the rotation direction of the gravure roll 2, the air removed from the gravure roll 2 will follow the gravure roll along the inner member 10. As shown in FIG. The air spaced apart from the peripheral surface of the gravure roll 2 is suppressed from remaining in the coating liquid # 6 by guiding it to be separated from the peripheral surface of the (2), and the air gravure roll 2 There is also an advantage that can be effectively prevented to reattach to.

Further, the first coating liquid supply means 4 for supplying the coating liquid to the upstream chamber 12 of the coating liquid 6 6 located in the rotational upstream side of the gravure roll 2 than the inner member 10; The second coating liquid supply means 5 which supplies a coating liquid to the downstream chamber 13 of the coating liquid 굄 6 located in the rotational direction downstream side of the gravure roll 2 rather than the said inner member 10 is provided. As the third embodiment shown in FIG. 4 instead of the first and second embodiments, the upstream chamber 12 of the coating liquid 하는 located in the rotational direction upstream side of the gravure roll 2 and the inner member 10; A communication path 23 is formed in the hermetic chamber 7 to communicate the downstream chamber 13 of the coating liquid 하는 located in the rotational downstream side of the gravure roll 2 than the inner member 10, and at the same time, the coating The structure in which the single coating liquid supply means 24 which supplies a coating liquid in the upstream chamber 12 of the liquid cylinder 6 is provided. Is recommended.

In 3rd Embodiment, the 2nd coating liquid supply means 5 provided with the feed pump 15 and the coating liquid tank 14 which supply a coating liquid to the downstream chamber 13 of the coating liquid # 6 are provided. The coating liquid supplied into the upstream chamber 12 of the coating liquid # 6 via the coating liquid supply passage 25 from the single coating liquid supply means 24 is not supplied from the said communication path 23 with the downstream chamber ( 13) The coating liquid drawn out of the downstream chamber 13 can be conveyed into the coating liquid tank 14 of the coating liquid supply means 24 by the coating liquid conveying passage 26 at the same time as flowing into the inside of the downstream chamber 13. Therefore, the coating liquid can be filled in both the upstream chamber 12 and the downstream chamber 13 while simplifying the structure of the coating liquid supply means 24.

5 shows a fourth embodiment of the gravure coating device according to the present invention. In the gravure coating device according to the fourth embodiment described above, the coating liquid is supplied to the coating liquid supply means 43 having the single coating liquid tank 41 and the feeding pump 42. A first coating liquid supply passage 44 to supply, a second coating liquid supply passage 45 branching from the first coating liquid supply passage 44 and supplied to the downstream chamber 13 of the coating liquid # 6; And the first coating liquid conveying passage 46 for conveying the coating liquid derived from the upstream chamber 12 of the coating liquid # 6 to the coating liquid tank 41 and the first coating liquid conveying passage 46. 2nd coating liquid conveyance path 47 which conveys the coating liquid drawn out from the downstream chamber 13 of the coating liquid # 6 to the coating liquid tank 41 is provided, and the said 2nd coating liquid supply passage ( 45, a pressure regulating valve 48 is provided.

According to the gravure coating apparatus which concerns on the said 4th Embodiment, the upstream chamber 12 of the said coating liquid # 6 is provided using the single coating liquid supply means 43, without providing the said communication path 23 etc. And the coating liquid can be supplied to the downstream chamber 13, and the relative pressures of the upstream chamber 12 and the downstream chamber 13 are adjusted as the pressure regulating valve 48 is operated as necessary. There is an advantage that can be properly adjusted. In addition, the first and second coating liquid supply passages 44, which are individually connected to the coating liquid tank 41, instead of the above-described configuration having a pressure control valve 48 in the second coating liquid supply passage 45, It is also preferable to set it as the structure which provided the feed pump of coating liquid at 45), respectively.

Further, the inner member 10, 20 made of a steel plate member (inner doctor) or the like having a proximal end fixed thereto through the locking member 11 on the front downward inclined surface formed on the rear surface of the coating liquid # 6 is replaced. As in the fifth embodiment shown in FIG. 6 or the sixth embodiment shown in FIG. 7, the inner member 27 made of an elastic inner roll formed of a synthetic rubber material or the like is disposed in the sealed chamber 7 as a rotating material, and It is also preferable to set it as the structure which always made the peripheral surface contact.

According to the above configuration, the coating liquid 굄 prevents a large load from acting on the gravure roll 2 as the inner member 27 made of the elastic inner roll is brought into contact with the gravure roll 2 to be electrically driven in the sealed chamber. The coating liquid in (6) and the air adhering to the gravure roll 2 can be replaced effectively.

Although the gravure roll 2 which transfers a coating liquid to the surface of the said base material 1 can set the outer diameter to arbitrary values in the range of 30 mm-250 mm, for example, the gravure roll 2 The contact area of the gravure roll 2 with respect to the base material 1 can be made small by setting the outer diameter of) to a small diameter of about 40 mm, and between the gravure roll 2 and the base material 1. Since a large frictional force can be suppressed from acting, there is an advantage that the unevenness of the coating can be effectively suppressed when the coating liquid is transferred to the substrate 1 via the gravure roll 2. However, when the outer diameter of the gravure roll 2 is made into small diameter with respect to the coating apparatus in which the said gravure roll 2 was formed long and the distance between bearings was large, the said gravure roll 2 was small. When the coating liquid is transferred to the base material 1 through (2), vibration occurs in the gravure roll 2, and it tends to cause adverse effects on the coated surface.

Therefore, in order to prevent coating spots from occurring due to vibration occurring in the gravure roll 2, as in the sixth embodiment shown in FIG. 8, for example, an inner member made of a block-like body having a predetermined thickness or the like. (28) is provided in the hermetic chamber (7) and slidably supported, and the pushing bolt (29) which drives the inner member (28) into the coating liquid (6) is provided, and the pushing bolt ( It is preferable to provide a pressure contact force adjustment mechanism for adjusting the pressure contact force of the inner member 28 with respect to the gravure roll 2 by rotating the inner member 28 by screwing the inner member 28. . According to this configuration, the tip of the inner member 28 is brought into contact with the lower part of the gravure roll 2 so as to effectively promote the replacement of the air attached to the gravure roll 2 with the coating liquid in the coating liquid # 6. When transferring the coating liquid to the substrate 1 via the gravure roll 2 in order to be able to combine the function with the inner member 28 as a vibration damping member of the gravure roll 2. There is an advantage that can effectively prevent the vibration is generated in the gravure roll (2).

1: Base material 2: Gravure roll
4, 5, 24, 43: Coating liquid supply means 6: Coating liquid 굄
7: hermetic chamber 8: doctor blade
9: sealing plate 10, 20, 27, 28: inner member
16, 44: first coating liquid supply passage 18, 45: second coating liquid supply passage

Claims (6)

Gravure comprising a coating unit having a gravure roll for transferring the coating liquid to the surface of the substrate, a coating unit having a closed chamber for applying the coating liquid to the gravure roll, and a coating liquid supply means for supplying the coating liquid into the coating liquid 형성된 formed in the closed chamber. In the coating device,
In the closed chamber,
A doctor blade for sealing the downstream side of the gravure roll rotational direction of the coating liquid 과 and removing excess coating liquid adhered to the gravure roll;
A sealing plate for sealing a gravure roll rotational upstream side of the coating liquid,;
A gravure coating device comprising: an inner member provided at a tip portion between the sealing plate and the doctor blade so as to always contact the peripheral surface of the gravure roll. The first coating liquid supply passage for supplying the coating liquid to the upstream chamber of the coating liquid 하는 located in the rotational upstream side of the gravure roll than the inner member;
A gravure coating device, comprising: a second coating liquid supply passage for supplying the coating liquid to the downstream chamber of the coating liquid 위치 located in the rotational downstream side of the gravure roll rather than the inner member. The communication path of Claim 1 which communicates the upstream chamber of the coating liquid # which is located in the rotation direction upstream of a gravure roll rather than the said inner member, and the downstream chamber of the coating liquid # located in the rotational direction downstream of a gravure roll than said inner member. The gravure coating apparatus according to claim 1, further comprising a single coating liquid supplying means for supplying the coating liquid into the upstream chamber of the coating liquid 되게. The gravure coating device according to claim 2 or 3, wherein the inner member is a plate-shaped member provided in an inclined state to face in the rotational direction of the gravure roll. The gravure coating device according to claim 2 or 3, wherein the inner member, which is an elastic inner roll, is disposed in a sealed chamber with a rotating material, and the circumferential surface thereof is always in contact with the gravure roll. 4. A pressure contact force adjustment mechanism as set forth in claim 2 or 3, wherein the inner member, which becomes a block body, is slidably disposed in the closed chamber, and the pressure member adjusts the pressure contact force of the inner member to the gravure roll by driving the inner member. Gravure coating device, characterized in that.

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