Slot Die Coating Device Having Air Vent

Abstract

The present disclosure relates to a slot die coating apparatus for coating an electrode active material slurry onto an electrode collector, the slot die coating apparatus including: a coating roller; at least two or more dies; a discharge opening through which the electrode active material slurry is discharged in an opposite direction on which gravity acts; and an air vent installed in the die.

Claims

1. A slot die coating apparatus for coating an electrode active material slurry onto an electrode collector, the slot die coating apparatus comprising: a coating roller; a slot die comprising two or more dies; a discharge opening configured to discharge the electrode active material slurry in an opposite direction on which gravity acts; and an air vent installed in the slot die.

2. The slot die coating apparatus of claim 1, wherein the slot die comprises a left die and a right die.

3. The slot die coating apparatus of claim 2, wherein the left die comprises a first left die and a second left die.

4. The slot die coating apparatus of claim 3, wherein a left discharge opening is formed by a combination of the first left die and the second left die.

5. The slot die coating apparatus of claim 4, wherein a left slurry receiving part is formed in the first left die.

6. The slot die coating apparatus of claim 5, wherein the left slurry receiving part is communicated with the left discharge opening.

7. The slot die coating apparatus of claim 6, wherein the air vent passes through the first left die to be communicated to the left slurry receiving part.

8. The slot die coating apparatus of claim 7, wherein the air vent is formed at a portion S1 at which the left slurry receiving part and the left discharge opening are connected to each other.

9. The slot die coating apparatus of claim 2, wherein the right die comprises a first right die and a second right die.

10. The slot die coating apparatus of claim 9, wherein a right discharge opening is formed by a combination of the first right die and a second right die.

11. The slot die coating apparatus of claim 10, wherein a right slurry receiving part is formed in the second right die.

12. The slot die coating apparatus of claim 11, wherein the right slurry receiving part is communicated with the right discharge opening.

13. The slot die coating apparatus of claim 12, wherein the air vent passes through the second right die to be communicated to the right slurry receiving part.

14. The slot die coating apparatus of claim 13, wherein the air vent is formed at a portion S2 at which the right slurry receiving part and the right discharge opening are connected to each other.

15. The slot die coating apparatus of claim 1, wherein the air vent comprises a valve.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] FIG. 1 is a vertical cross-sectional view illustrating a conventional slot die coating apparatus.

[0031] FIG. 2 is a vertical cross-sectional view illustrating a slot die coating apparatus according to one embodiment of the present disclosure.

[0032] FIG. 3 is a plan view illustrating a slot die coating apparatus according to one embodiment of the present disclosure.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0033] Hereinafter, various embodiments of the present disclosure will be described in detail with reference to the accompanying figures so that those skilled in the art can easily implement them. The present disclosure may be modified in various different ways, and is not limited to the embodiments set forth herein.

[0034] Further, throughout the specification, when a part is referred to as “including” a certain component, it means that it can further include other components, without excluding the other components, unless otherwise stated.

[0035] FIG. 2 is a vertical cross-sectional view illustrating a slot die coating apparatus according to one embodiment of the present disclosure.

[0036] Referring to FIG. 2, the slot die coating apparatus 400 may include a slot die 401, a coating roller 402, and air vents 403A and 403B. The slot die coating apparatus 400 may be used in a process of simultaneously coating two electrode active material layers.

[0037] The slot die 401 may include a left die 401A and a right die 101B. The left die 401A may include a first left die 401A-1, a second left die 401A-2, and the right die 401B may include a first right die 401B-1 and a second right die 401B-2.

[0038] The second left die 401A-2 may have a structure in which a surface facing the first right die 401B-1 is perpendicular to the ground surface.

[0039] The second left die 401A-2 may include a groove-shaped left slurry receiving part 421, which has a predetermined depth on a surface facing the first left die 401A-1. The left slurry receiving part 421 can be connected to a left slurry supply chamber (not shown) installed on the outside to continuously receive supply of a first electrode active material slurry. The left slurry receiving part 421 may include a left slurry supply port (not shown) communicated with a left slurry supply chamber (not shown).

[0040] When the first electrode active material slurry supplied via the left slurry supply port is fully filled in the left slurry receiving part 421, the first electrode active material slurry moves in a direction, in which the coating roller 402 is installed, through a left discharge opening 405 formed via a sequential combination of the second left die 401A-2 and the first left die 401A-1 to be discharged to the outside. In particular, the first electrode active material slurry is discharged via the left discharge port 405 in the opposite direction on which gravity acts.

[0041] The first left die 401A-1 can be located on the left side of the second left die 401A-2 and be combined with the second left die 401A-2 while a left spacer (not shown) being interposed therebetween. A surface of the first upper die 401A-1, which faces the second left die 401A-2, may have an inclined structure with an angle of approximately 30 to 90 degrees with respect to the ground surface.

[0042] The first left die 401A-1 and the second left die 401A-2 may be formed of a metal material, and be mutually fastened to each other through bolt coupling and the like.

[0043] The right left die 401B includes a first right die 401B-1 and a second right die 401B-2. The second right die 401B-2 is located at the right most side of the dies forming the slot die 401, and the surface facing the first right die 401B-1 may have an inclined structure with an angle of approximately 30 to 90 degrees with respect to the ground surface.

[0044] The second right die 401B-2 may include a groove-shaped right slurry receiving part 411 having a predetermined depth on a surface facing the first right die 401B-1. The right slurry receiving part 411 can be connected to a right slurry supply chamber (not shown) installed on the outside to continuously receive supply of a second electrode active material slurry. The right slurry receiving part 411 may include a right slurry supply port (not shown) communicated with the right slurry supply chamber. The first electrode active material slurry and the second electrode active material slurry may be identical components or be formed of different components depending on the intended use of the electrode to be produced.

[0045] If the second electrode active material slurry supplied via the right slurry supply port is fully filled in the right slurry receiving part 411, the second electrode active material slurry may be discharged to the outside via a right discharge opening 406 formed by a sequential combination of the second right die 401B-2 and the first right die 401B-1. In particular, the second electrode active material slurry is discharged via the right discharge port 406 in the opposite direction on which gravity acts.

[0046] The first right die 401B-1 is located on the left side of the second right die 401B-2. The surface facing the first right die 401B-1 and the second right die 401B-2 may have an inclined structure with an angle of approximately 30 to 90 degrees with respect to the ground surface.

[0047] The first right die 401B-1 may have a shape in which a surface facing the left die 401A is perpendicular to the ground surface. The first right die 401B-1 and the second right die 401B-2 may be formed of a metal material, and be fastened to each other by bolt coupling or the like.

[0048] The air vent may include a left air vent 403A and a right air vent 403B.

[0049] The left air vent 403A may pass through the first left die 401A-1 to be communicated to the left slurry receiving part 421. The position of the left air vent 403A is not particularly limited, but since many bubbles are generated in the portion S1 connected from the left slurry receiving part 421 to the left discharge port 405, it is preferable to install the left air vent 403A in the portion S1. Further, in consideration of the inclined structure of the left discharge port 405 and the position of the coating roller 402, it is preferable that the angle formed by the left air vent 403A and the left discharge port 405 is maintained at 30 to 90 degrees. The left air vent 403A may include a valve (not shown) capable of opening and closing.

[0050] The right air vent 403B may pass through the second right die 401B-2 to be communicated with the right slurry receiving part 411. The position of the right air vent 403B is not particularly limited. However, since many bubbles are generated in a portion S2 connected from the right slurry receiving part 411 to the right discharge port 406, it is preferable to install the right air vent 403B in the portion S2. Further, in consideration of the inclined structure of the right discharge port 406 and the position of the coating roller 402, it is preferable that the angle formed by the right air vent 403B and the right discharge port 406 is maintained at 30 to 90 degrees. The right air vent 403B may include a valve 407 capable of opening and closing.

[0051] In the state where the valve 407 of the right air vent 403B is closed, the second electrode active material slurry may be continuously supplied to the right slurry receiving part 411 via the right slurry supply port. As the second electrode active material slurry is filled in the right slurry receiving part 411, bubbles in the right slurry receiving part 411 and the right discharge port 406 are collected in the right air vent 403B. Bubbles generated in the portion S are also collected in the right air vent 403B. Then, the bubbles can be removed at once by opening the valve 407 of the right air vent 403B.

[0052] Thus, the operator can efficiently remove the bubbles inside the right slurry receiving part 411 and the right discharge opening 406 without loss of the second electrode active material slurry before starting the coating operation. Further, since the bubbles are removed through the right air vent 403B, there is no need to provide a separate slurry receiving trough.

[0053] The left air vent 403A may also remove bubbles in the same manner as the right air vent 403B.

[0054] FIG. 3 is a plan view illustrating a slot die coating apparatus according to another embodiment of the present disclosure.

[0055] Referring to FIG. 3, the slot die coating apparatus 500 may be located at both sides of the slot die 501 in the longitudinal direction L of the slot die 501, respectively. Further, the right air vent 503B may have a structure bent toward the center of the slot die 501. With this structure, the operator can not only efficiently use the operation space, but also can properly receive the electrode active material slurry containing bubbles.

[0056] The installation structure of the air vents 403A and 403B according to the present disclosure is equally applied to a 3-stage slot die coating apparatus in which the second left die 401A-2 and the first right die 401B-1 are formed of one die. In this case, the second left die 401A-2 and the first right die 401B-1 may be the same as the structure of FIG. 2 except for a structure which is formed of one die, and thus, a detailed description thereof will be omitted.

[0057] The present disclosure can be variously applied and modified by an ordinary person in the art to which the present disclosure pertains without departing from the scope of the present disclosure, based on the above contents.