KR20110100529A - Gravure coating device having double chamber - Google Patents

Abstract

The present invention relates to a double chamber type gravure coating device. It comprises a gravure roller rotatably horizontally supported on the frame and axially rotated by power provided from the outside; A coating block installed on the lower portion of the gravure roller and having a chamber open toward the periphery of the gravure roller, the coating block accommodating the coating liquid to be supplied to the gravure roller; An elevating partition wall provided in the chamber of the coating block and dividing the chamber into a first chamber and a second chamber, the elevating partition wall having an upper end spaced apart from an outer circumferential surface of the gravure roller; A bulkhead position adjusting unit for elevating the elevating bulkhead to adjust an interval of an outer circumferential surface of the gravure roller with respect to an upper part of the elevating bulkhead; A base plate fixed to a lower portion of the coating block and positioned horizontally; The base frame is moved up and down while being supported by the frame, characterized in that it comprises a gap adjusting means for adjusting the distance of the coating block with respect to the gravure roller.
The double chamber type gravure coating apparatus of the present invention as described above has an elevating bulkhead capable of optimizing the flow velocity of the coating liquid passing through the chamber inside the coating convex, so that the air can be effectively extracted from the gravure roller cell. Coating efficiency can be improved.

Description

Gravure coating device having double chamber

The present invention relates to a double chamber type gravure coating device.

The gravure coating apparatus fills the volatile coating liquid on the outer circumferential surface of the gravure roller on which fine cells are formed, and scrapes and removes the ink on the outer circumferential surface of the gravure roller except the coating liquid inside the cell, and then passes between the gravure roller and the pressure roller. It is a coating device that transfers the coating liquid to fabric or paper to obtain a desired pattern shape.

Such a gravure coating device, the gravure roller is rotated by receiving power from the outside, the fine cell is formed on the outer circumferential surface, and receives the coating liquid supplied from the outside, contact with the gravure roller and the gravure roller during the rotation of the gravure roller And a coating block to be coated on an outer circumferential surface, a coating liquid supply unit for supplying the coating liquid into the coating block, and a recovery means for recovering the excess coating liquid discharged from the coating block to the coating liquid tank.

However, the conventional gravure coating apparatus has a disadvantage in that the air introduced into the coating block cannot be easily removed during the coating process. The air introduced into the coating block exists in the form of air bubbles in the coating liquid, and is mixed with the coating liquid inside the cell of the gravure holder. When air enters the inside of the cell, the cell is insufficiently filled with the amount of coating liquid occupied by the air, causing the coating to be defective.

In order to solve the above problem, various devices for discharging air from the inside of the cell have been proposed. For example, in the gravure coater of Japanese Laid-Open Patent Publication No. 2003-251241, the contents of the inclined interceptor in the coating block are introduced. The inner doctor increases the flow rate of the coating liquid moving from the front chamber to the rear chamber of the coating block, and serves to discharge the air occupying the cell of the gravure roller to the outside of the cell.

However, the inner doctor has a disadvantage in that the gap with respect to the gravure roller cannot be adjusted because it is completely fixed in the coating block. It is necessary to adjust the flow rate of the coating liquid flowing from the front chamber to the rear chamber according to the state of the gravure roller. As the inner doctor is fixed as described above, the flow rate of the coating liquid cannot be adjusted so that it is difficult to efficiently remove the air in the cell.

The present invention has been made to solve the above problems, the inside of the coating convex, provided with a lifting bulkhead that can optimize the flow rate of the coating liquid passing through the chamber can effectively remove the air from the gravure roller cell, so that the coating efficiency The purpose is to provide a good double chamber type gravure coating device.

A double chamber type gravure coating apparatus of the present invention for achieving the above object, the gravure roller rotatably horizontally supported on the frame and axially rotated by the power provided from the outside; A coating block installed on the lower portion of the gravure roller and having a chamber open toward the periphery of the gravure roller, the coating block accommodating the coating liquid to be supplied to the gravure roller; An elevating partition wall provided in the chamber of the coating block and dividing the chamber into a first chamber and a second chamber, the elevating partition wall having an upper end spaced apart from an outer circumferential surface of the gravure roller; A bulkhead position adjusting unit for elevating the elevating bulkhead to adjust an interval of an outer circumferential surface of the gravure roller with respect to an upper part of the elevating bulkhead; A base plate fixed to a lower portion of the coating block and positioned horizontally; The base frame is moved up and down while being supported by the frame, characterized in that it comprises a gap adjusting means for adjusting the distance of the coating block with respect to the gravure roller.

In addition, the coating block; And a block assembly having an injection hole for mutually assembled to form the chamber and inducing external coating liquid to the first chamber, and a discharge hole for discharging the coating liquid and air in the second chamber to the outside of the chamber. Blowing; The hydraulic actuator is linked to the elevating bulkhead and operated as necessary to elevate the elevating bulkhead, thereby adjusting a distance of the elevating bulkhead with respect to the gravure roller.

In addition, the coating block; And a block assembly having an injection hole for mutually assembled to form the chamber and inducing external coating liquid to the first chamber, and a discharge hole for discharging the coating liquid and air in the second chamber to the outside of the chamber. Blowing; A lead screw linked to the elevating bulkhead and extending out of the block assembly; A handle provided at an end of the lead screw and configured to rotate the lead screw; It is fixed to the block assembly, characterized in that it comprises a nut for raising and lowering the elevating bulkhead during the axial rotation of the lead screw through the lead screw therein.

In addition, the block assembly, characterized in that the leakage liquid guide hole for guiding the leaking liquid from the chamber through the gap between the lifting bulkhead and the block assembly to the outside of the block assembly.

In addition, the discharge hole is connected to the discharge tube for guiding the air discharged from the discharge hole and the coating liquid to the outside of the chamber, the recovery tube is branched, the discharge tube for discharging air is connected to one side, the other side It is characterized in that the coating liquid return tube for recovering the coating liquid to the coating liquid tank.

The double chamber type gravure coating apparatus of the present invention as described above has an elevating bulkhead capable of optimizing the flow velocity of the coating liquid passing through the chamber inside the coating convex, so that the air can be effectively extracted from the gravure roller cell. Coating efficiency can be improved.

1 is a view schematically showing the configuration of a double chamber type gravure coating apparatus according to an embodiment of the present invention.
Figure 2 is a view showing for explaining the features of the gravure coating apparatus shown in FIG.
3 is a cross-sectional view showing in more detail the coating block shown in FIG.
4 is a view showing another example of the coating block shown in FIG.

Hereinafter, one embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing the configuration of a double chamber type gravure coating apparatus according to an embodiment of the present invention, Figure 2 is a view showing for explaining the characteristics of the gravure coating apparatus shown in FIG.

Referring to the drawings, the double chamber type gravure coating apparatus 11 according to the present embodiment is a frame 13 which provides a space therein, and is rotatably supported on the frame 13 and rotates from a motor 17. A gravure roller 15 that receives the axial rotation and a coating block 21 disposed below the gravure roller 15 and having a first chamber 21b and a second chamber 21c, and the coating block ( 21 and a plurality of actuators 29 which support the frame horizontally, and a plurality of actuators 29 which are supported by the frame and adjust the distance of the coating block 21 to the gravure roller 15 by lifting the base plate 27 up and down. Include.

In addition, to supply the coating liquid into the coating block 21, the coating liquid containing the coating liquid 37 and the coating liquid inside the coating tank 37 through the coating liquid supply tube (25) coating block ( A pump 39 that pumps to the first chamber 21b of the 21 is provided. In addition, the excess coating liquid discharged into the discharge hole 21k of the coating block 21 is recovered to the coating liquid tank 37 through the coating liquid return tube 43 via the recovery tube 45.

First, the gravure roller 15 is a fine cell is engraved on the outer peripheral surface, the roller shaft 15a is supported on the frame 13 through the bearing to maintain a horizontal. In addition, the driven pulley 15b is fixed to one roller shaft 15a of the roller shaft 15a. The driven pulley 15b is connected to the drive pulley 17a of the motor 17 via the belt 19. Therefore, the rotational force of the motor is transmitted to the gravure roller 15 via the belt 19.

The coating block 21 accommodates the coating liquid supplied through the coating liquid supply tube 25, and serves to transfer the coating liquid to the outer circumferential surface of the gravure roller 15, and has a lifting bulkhead 21 a in the inner center thereof. . The lifting bulkhead 21a divides the internal space of the coating block 21 into the first chamber 21b and the second chamber 21c. The lifting bulkhead 21a is capable of elevating up and down at an installed position, so that the gravure roller 15 The distance to the outer circumference can be adjusted.

In addition, an injection hole 21g is provided in the lower portion of the first chamber 21b. The injection hole 21g is a passage for guiding the coating liquid A into the first chamber 21b. Moreover, the discharge hole 21k is formed in the side part of the 2nd chamber 21c. The discharge hole 21k is a gravure roller 15 by the pressure of the coating liquid which has passed from the first chamber 21b to the second chamber 21c beyond the elevating bulkhead 21a, and the liquid which has been transferred to the second chamber 21c. It is a passage for discharging the air that is separated from the cell of) and collected in the second chamber 21c to the outside.

In particular, the coating liquid and the air are simultaneously discharged through the discharge hole 21k. For this purpose, the flow rate of the coating liquid flowing into the second chamber 21c must be adjusted, which is controlled by the pump 39 described above.

In any case, the recovery tube 45 is fixed to the discharge hole 21k. The recovery tube 45 is a T-shaped pipe, the air is sent to the exhaust tube 47, the coating liquid is sent to the coating liquid return tube (43). In addition, a vacuum pump 49 is connected to the exhaust tube 47. The vacuum pump 49 maintains the internal pressure of the second chamber 21c at a negative pressure, thereby implementing air separation from the gravure roller 15 more quickly and effectively.

Reference numeral 35 denotes a leaking liquid return tube connected to the leaking liquid inducing hole (21p in FIG. 3) provided in the coating block 21. The leak liquid return tube 35 sends the liquid discharged through the leak liquid induction hole 21p to the liquid return tube 43.

On the other hand, the base plate 27 is provided below the coating block 21. The base plate 27 horizontally supports the coating block 21 as a plate-like member horizontally supported by a plurality of actuators 29. In some cases, if the actuator 29 can be directly connected to the coating block 21, the base plate 27 need not be applied.

The actuator 29 is a driving mechanism that uses air or an inert gas as a working fluid. The actuator 29 extends above the gas cylinder 29a fixed to the support 31 that is a part of the frame 13 and the gas cylinder 29a. Its upper end is composed of an actuating rod 29b fixed to the base plate 27. The actuators 29 are arranged at regular intervals on the support 31 and all have the same operation.

The use of air or gas as the working fluid of the actuator 29 allows the actuator to absorb vibration of the gravure roller 15 and to maintain a constant pressure of the coating block 21 against the gravure roller 15. It is considered.

3 is a cross-sectional view showing in more detail the coating block shown in FIG.

Referring to the drawings, the coating block 21, the main block 21m and the support block 21n coupled to the lower center of the main block 21m, the main block 21m and the support block 21n. It consists of side plates 21t fixed to both ends of the assembly. Basically, the coating block 21 is a block assembly composed of a main block 21m, a support block 21n, and a side plate 21t. In addition, the block assembly has a chamber open toward the gravure roller (15).

In addition, the seal plate 21e is fixed to one side of the upper end of the main block 21m. The seal plate 21e is a strip-shaped member having a predetermined width and thickness, and the tip end portion thereof is fixed to contact the outer circumferential surface of the gravure roller 15. The seal plate 21e is fixed to the coating block by the pressing plate 21f.

In addition, the doctor blade 21d is fixed to the opposite side of the seal plate 21e. The doctor blade 21d scrapes the coating liquid on the outer circumferential surface of the gravure roller 15 into the chamber, and moves the coating liquid to the coating object in a state filled with only the cell. That is, the coating liquid does not go out in a state where it is buried on the outer circumferential surface of the gravure roller 15.

The doctor blade is made of a material such as stainless steel or steel sheet, and is fixed so that its tip portion is in contact with the outer circumferential surface of the gravure roller 15 by the pressing plate 21f.

On the other hand, the lifting partition 21a is installed inside the coating block 21. The lifting bulkhead 21a is a block body that divides the chamber inside the coating block 21 into the first chamber 21b and the second chamber 21c. In particular, the elevating bulkhead 21a may be moved up and down at an installed position to adjust a gap with respect to the outer circumferential surface of the gravure roller 15.

As described above, the coating liquid introduced into the first chamber 21b through the injection hole 21g is transferred to the second chamber 21c through the gap between the lifting bulkhead 21a and the outer circumferential surface of the gravure roller 15. By adjusting the gap between the lifting bulkhead 21a and the gravure roller 15 as necessary, the flow rate and flow pressure of the coating liquid passing through the gap can be controlled. Adjusting the flow rate and the flow pressure of the coating liquid is to remove the air trapped in the cell formed on the outer peripheral surface of the gravure roller (15).

The narrower the gap, the faster the flow rate of the coating liquid passing through the gap and the flow pressure of the coating liquid immediately after passing the gap increases, so that the air trapped in the cell of the gravure roller 15 is discharged smoothly from the cell. However, as the gap is narrowed, the internal pressure of the first chamber 21b increases, so that the load of the pump 39 is increased, and the plating liquid may leak between the seal plate 21e and the gravure roller 15. It cannot be narrowed down unconditionally.

If air is not trapped in the cell (defective of coating) depending on the shape of the cell or other operating conditions, it is not necessary to overly close the gap. At this time, it is preferable to reduce the load of the pump 39 and reduce the internal pressure of the first chamber 21b by opening the gap within an allowable limit.

3, a second actuator 33 is provided as a partition position adjusting part for adjusting the gap between the gravure roller 15 and the lifting bulkhead 21a. The second actuator 33 is a hydraulic actuator, a cylinder 33a fixed to the lower portion of the support block 21n, and an operation rod 33b extending upward from the cylinder 33a and fixed to the lifting bulkhead 21a. )

By operating the second actuator 33, it is possible to optimally maintain the clearance gap according to the operating conditions or other situations.

The leaky liquid induction hole 21p is provided in the lower part of the lifting bulkhead 21a. The leak liquid induction hole 21p is a passage for discharging the coating liquid that may leak through the close contact portion between the elevating bulkhead 21a and the support block 21n to the outside of the coating block 21, and the leak described in FIG. It is connected to the conductive liquid return tube 35.

4 is a view showing another example of the coating block shown in FIG. The same reference numerals as the above reference numerals denote the same members having the same function.

A lead screw 51 and a nut portion 53 are applied to the coating block shown in FIG. 4 as the partition position adjusting part. That is, the partition position adjusting portion, the nut portion 53 fixed to the lower portion of the support block (21n), and through the nut portion 53, the upper end thereof is axially connected to the lifting bulkhead (21a) and the lower end The lead screw 51 provided with the handle 55 is provided. When the lead screw 51 is axially rotated through the handle 55, the lead screw 51 moves in the longitudinal direction to elevate the elevating bulkhead 21a.

As a result, the gravure coating apparatus according to the present embodiment can efficiently discharge the air inside the cell while minimizing leakage of the plating liquid through the partition position adjusting unit.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

11: Gravure coating device 13: Frame 15: Gravure roller
15a: roller shaft 15b: driven pulley 17: motor
17a: drive pulley 19: belt 21: coating block
21a: lifting bulkhead 21b: first chamber 21c: second chamber
21d: Doctor blade 21e: Seal plate 21f: Pressing plate
21 g: injection hole 21 k: discharge hole 21 m: main block
21n: Support block 21p: Exposure liquid guide hole 21t: Side plate
25: Coating solution tube 27: Base plate 29: Actuator
29a: gas cylinder 29b: working rod 31: support
33: 2nd actuator 33a: cylinder 33b: operating rod
35: Leakage return tube 37: Coating liquid tank 39: Pump
43: liquid return tube 45: recovery tube 47: exhaust tube
49: vacuum pump 51: lead screw 53: nut part
55: the handle

Claims (5)

A gravure roller rotatably horizontally supported by the frame and axially rotated by power provided from the outside;
A coating block installed on the lower portion of the gravure roller and having a chamber open toward the periphery of the gravure roller, the coating block accommodating the coating liquid to be supplied to the gravure roller;
An elevating partition wall provided in the chamber of the coating block and dividing the chamber into a first chamber and a second chamber, the elevating partition wall having an upper end spaced apart from an outer circumferential surface of the gravure roller;
A bulkhead position adjusting unit for elevating the elevating bulkhead to adjust an interval of an outer circumferential surface of the gravure roller with respect to an upper part of the elevating bulkhead;
A base plate fixed to a lower portion of the coating block and positioned horizontally;
Double chamber type gravure coating apparatus comprising a gap adjusting means for adjusting the distance of the coating block to the gravure roller by lifting the base frame in a state supported by the frame. The method of claim 1,
The coating block;
It is composed of a block assembly having an injection hole for mutually assembled to form the chamber, leading the external coating liquid to the first chamber, and a discharge hole for discharging the coating liquid and air in the second chamber to the outside of the chamber,
The partition position adjusting unit;
And a hydraulic actuator that is linked to the elevating bulkhead and operates as necessary to elevate the elevating bulkhead, thereby adjusting a spacing of the elevating bulkhead with respect to the gravure roller. The method of claim 1,
The coating block;
It is composed of a block assembly having an injection hole for mutually assembled to form the chamber, leading the external coating liquid to the first chamber, and a discharge hole for discharging the coating liquid and air in the second chamber to the outside of the chamber,
The partition position adjusting unit;
A lead screw linked to the elevating bulkhead and extending out of the block assembly;
A handle provided at an end of the lead screw and configured to rotate the lead screw;
The double chamber type gravure coating device, characterized in that it is fixed to the block assembly comprising a nut portion for elevating the elevating bulkhead during the axial rotation of the lead screw through the lead screw therein. The method according to claim 1, wherein
The block assembly, the double chamber type gravure coating apparatus, characterized in that the leakage liquid induction hole for guiding the leakage from the chamber through the gap between the lifting bulkhead and the block assembly to the outside of the block assembly. 4. The method according to claim 2 or 3,
The discharge hole is provided with a recovery tube for inducing air discharged from the discharge hole and the coating liquid to the outside of the chamber,
The recovery tube is branched, a double chamber type gravure coating apparatus, characterized in that the discharge tube for discharging the air is connected to one side, and the liquid-liquid return tube for recovering the coating liquid to the coating tank on the other side.

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