JP6920051B2 - Web coating equipment - Google Patents

Description

The present invention relates to a web coating device that coats a web with a coating liquid.

Conventionally, a coating device capable of intermittent coating in which a coated portion and an uncoated portion are alternately coated when applying a coating liquid to a web has been proposed.

Japanese Unexamined Patent Publication No. 2016-147216

In the coating apparatus as described above, when the coating liquid is applied to the web such as the electrode base material of the secondary battery, it may be desired to change the thickness of the coated portion.

For example, as shown in FIG. 5, when alternately forming portions having different coating thicknesses of the coating liquid on the web W, the base coating portion T1 was first formed by the first coating apparatus. After that, the coating portion T2 is intermittently coated on the coating portion T2 by the second coating apparatus. Therefore, there is a problem that the coating work needs to be performed twice.

Further, as shown in FIG. 6, when the coating portion T3 is intermittently coated on the web W and the second coating portion T4 is uniformly coated, the coating is applied between the adjacent coating portions T3. There was a problem that a dent was formed in the second coated portion T4.

Therefore, in view of the above problems, it is an object of the present invention to provide a coating apparatus capable of coating a web with different coating thicknesses.

The present invention supplies a backup roll that conveys a web at a constant transfer speed V, a die that applies a coating liquid to the web on the backup roll with a constant coating width, and a coating liquid to the die. In a coating device having a supply system and a control unit, the die includes a discharge port for the coating liquid provided at the tip of the die, a liquid reservoir provided inside the die, and the die. It has a liquid passage for the coating liquid from the liquid reservoir to the discharge port, and the supply system has a tank for storing the coating liquid and the coating liquid from the tank to the liquid storage portion. The first pump for pumping, the second pump for pumping the coating liquid from the tank, and the coating liquid pumped from the second pump are pumped to the liquid reservoir or circulated to the tank. It has a control valve that can be selected to be operated, and the control unit (1) applies the coating liquid to the web with the first coating thickness h1 from the first pump. The working liquid is continuously pumped to the liquid reservoir, the coating liquid is circulated from the second pump to the tank via the control valve, and (2) the coating liquid is applied to the web in the second coating thickness. When coating with h2 (where h2> h1), the coating liquid is continuously pumped from the first pump to the liquid reservoir, and the second pump passes through the control valve. This is a web coating device that controls to intermittently pump the coating liquid to the liquid reservoir.

According to the present invention, the web can be coated with different coating thicknesses.

It is explanatory drawing which shows the structure of the coating apparatus of this embodiment. It is a block diagram of a coating device. It is a 1st vertical cross-sectional view which shows the coating state of the web in this embodiment. It is a vertical cross-sectional view which shows the 2nd coating state of the web in this embodiment. It is a 1st vertical cross-sectional view which shows the coating state of the conventional web. It is a second vertical cross-sectional view which shows the coating state of the conventional web.

Hereinafter, the web W coating device 10 according to the embodiment of the present invention will be described with reference to FIGS. 1 to 4. The web W of the present embodiment is, for example, an electrode base material for forming a secondary battery. Other web Ws include, for example, films, metal foils, metal nets, cloths, and papers.

(1) Configuration of Coating Device 10 Next, the configuration of the coating device 10 will be described with reference to FIG. The coating device 10 includes a backup roll 12 that holds and conveys the web W, a die 14 arranged on the side of the backup roll 12, and a supply system 16 that supplies the coating liquid to the die 14.

The backup roll 12 is rotated by the transfer motor 18 to transfer the web W at a constant transfer speed.

The die 14 is composed of an upper main body 20 and a lower main body 22, and the upper main body 20 and the lower main body 22 have a shape that tapers toward the backup roll 12, and a coating liquid discharge port 28 is provided at the tip thereof. Is provided in a slit shape. A liquid reservoir 26 is provided in the width direction of the lower main body 22, and a liquid passage 30 is formed from the liquid reservoir 26 toward the discharge port 28.

The supply system 16 has a first pump 32, a first tank 34, a second pump 36, a second tank 38, and a control valve 40.

The first pump 32 is a metering pump that pumps the coating liquid stored in the first tank 34 to the liquid reservoir 26. The liquid reservoir 26 of the die 14 is opened with a first supply port 42 to which the coating liquid is supplied from the first pump 32. The first supply port 42 opens at the center of the liquid reservoir 26 in the width direction.

The second pump 36 is a metering pump that pumps the coating liquid stored in the second tank 38 to the control valve 40. The control valve 40 is composed of two two-way valves 44 and 46, the inlet of the two-way valves 44 and 46 is connected to the second pump 36, and the outlet of one of the two-way valves 44 is the second of the liquid reservoir 26. It is connected to the supply port 48. The second supply port 48 is independent of the first supply port 42, and is provided at the center of the liquid reservoir 26 in the width direction. The outlet of the two-way valve 46 is connected to the second tank 38 so as to circulate the coating liquid. The second pump 36 pumps the coating liquid supplied from the second tank 38 to the liquid reservoir 26 by switching the control valve 40, or circulates the coating liquid to the second tank 38.

(2) Electrical Configuration of Coating Device 10 Next, the electrical configuration of the coating device 10 will be described with reference to the block diagram of FIG. A transfer motor 18, a first pump 32, a second pump 36, and a control valve 40 are connected to the computer control unit 50.

The control unit 50 opens the two-way valve 44 of the control valve 40, closes the two-way valve 46, pumps the coating liquid to the liquid reservoir 26, and closes the two-way valve 44. The two-way valve 46 is opened to switch to a state in which the coating liquid is circulated in the second tank 38.

(3) First Coating State of Coating Device 10 Next, the first coating state of the coating device 10 will be described with reference to FIG. The first coating state is a case where coated portions A and B having different thicknesses are formed on the web W as shown in FIG. However, the first coating thickness h1 of the coating portion A <the second coating thickness h2 of the coating portion B. Further, the coating width M is the same for the coating portions A and B.

First, the same coating liquid is stored in the first tank 34 and the second tank 38. The control unit 50 rotates the transport motor 18 to rotate the backup roll 12 and transports the web W at a constant transport speed V.

The control unit 50 forms a thin coating unit A on the web W by a length L1 according to the transfer speed V. The control unit 50 pumps the coating liquid from the first tank 34 to the liquid reservoir 26 of the die 14 by the first pump 32 with a constant pumping amount S1 per unit time. The control unit 50 closes the two-way valve 44, opens the two-way valve 46, and circulates the coating liquid pumped from the second tank 38 by the second pump 36 to the second tank 38. In the die 14, the coating liquid pumped only from the first pump 32 is discharged from the discharge port 28 and coated on the web W to form the coating portion A. In this case, the pumping amount S1 per unit time of the first pump 32 is obtained from the product of the first coating thickness h1 of the coating portion A, the coating width M, and the transport speed V. The coating time tA of the coating unit A is tA = L1 / V.

When the coating of the coating unit A is completed, the control unit 50 forms the coating of the coating unit B having a thick thickness on the web W by the length L2 in accordance with the transport speed V. The control unit 50 pumps the coating liquid to the die 14 by the first pump 32. Further, the control unit 50 opens the two-way valve 44, closes the two-way valve 46, and pumps the coating liquid to the die 14 by the second pump 36. In the liquid reservoir 26 of the die 14, the coating liquid pumped from the first pump 32 and the coating liquid pumped from the second pump 36 are united and discharged from the discharge port 28, and the web W The coating part B is applied to the surface. In this case, the pumping amount S1 per unit time pumped from the first pump 32 is the same as that at the time of coating the coating unit A. Further, the pumping amount S2 per unit time pumped from the second pump 36 is obtained from the product of Δh = h2-h1, the coating width M, and the transport speed V. As a result, the coating liquids pumped from the first pump 32 and the second pump 36 are united to form the coating portion B having the second coating thickness h2. The coating time tB of the coating portion B is tB = L2 / V.

Then, when the coating of the coating unit B is completed, the control unit 50 closes the two-way valve 44 again and opens the two-way valve 46. That is, the first pump 32 continuously pumps the coating liquid to the die 14, and the second pump 36 intermittently pumps the coating liquid to the die 14. Then, by these operations, as shown in FIG. 3, coating portions A and coating portions B having different coating thicknesses can be alternately coated.

(4) Second Coating State of Coating Device 10 Next, the second coating state of the coating device 10 will be described with reference to FIG. In the second coating state, as shown in FIG. 4, the foundation coating portion C is intermittently coated on the web W in advance, and the coating liquid is coated on the web W so that the thickness becomes uniform. Further, the coating width M is the same for the coating portions A and B. The basic coating portion C corresponds to, for example, the slurry coating portion in the electrode member of the secondary battery.

First, the same coating liquid is stored in the first tank 34 and the second tank 38. The control unit 50 rotates the transport motor 18 to rotate the backup roll 12 and transports the web W at a constant transport speed V.

At the position of the foundation coating unit C, the control unit 50 pumps the coating liquid only from the first pump 32 to form the coating unit D at the coating thickness h3.

At the position of the uncoated portion D between the adjacent foundation coating portions C, the coating liquid from the second pump 36 is pumped in addition to the first pump 32 to obtain the coating thickness in the foundation coating portion C. The coating portion E is coated with a coating thickness h4 thicker than that.

As a result, the coating liquid can be uniformly applied as shown in FIG.

(5) Effect According to the present embodiment, the control unit 50 can apply coating thicknesses having different thicknesses by operating the control valve 40, and as shown in FIG. The thick coating portion B can be coated alternately. Further, when the foundation coating portion C is intermittently coated in advance, the coating liquid can be uniformly applied on the foundation coating portion C.

(6) Modification Example In the above embodiment, two two-way valves 44 and 46 are used as the control valve 40, but one three-way valve may be used instead. In this case, the inlet of the three-way valve is connected to the outlet of the second pump 36, the first outlet of the three-way valve is connected to the liquid reservoir 26, and the second outlet is connected to the outlet of the second tank 38. ..

Further, in the present embodiment, the first supply port 42 and the second supply port 48 are provided in the liquid reservoir 26 to supply the coating liquid separately, but instead of this, two coatings are applied in the middle of the piping. The liquids may be combined into one, and then one coating liquid may be supplied from one supply port to the liquid reservoir 26.

Although one embodiment of the present invention has been described above, this embodiment is presented as an example and is not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

10 ... coating equipment, 12 ... backup roll, 14 ... die, 16 ... supply system, 18 ... transfer motor, 26 ... liquid reservoir, 32 ... first pump , 34 ... 1st tank, 36 ... 2nd pump, 38 ... 2nd tank, 40 ... control valve, 44 ... 2-way valve, 46 ... 2-way valve, 50.・ ・ Control unit

Claims (9)

A backup roll that transports the web at a constant transport speed V,
A die that applies a coating liquid to the web on the backup roll with a constant coating width, and
A supply system that supplies the coating liquid to the die,
Control unit and
In the coating equipment with
The die
With the discharge port of the coating liquid provided at the tip of the die,
The liquid reservoir provided inside the die and
The liquid passage of the coating liquid from the liquid reservoir to the discharge port, and
Have,
The supply system
A tank for storing the coating liquid and
A first pump that pumps the coating liquid from the tank to the liquid reservoir, and
A second pump that pumps the coating liquid from the tank,
A control valve capable of selecting whether to pump the coating liquid pumped from the second pump to the liquid reservoir or circulate the coating liquid to the tank.
Have,
The control unit
(1) When the coating liquid is applied to the web with the first coating thickness h1, the coating liquid is continuously pumped from the first pump to the liquid reservoir, and the coating liquid is continuously pumped from the second pump to the liquid reservoir. The coating liquid is circulated in the tank via a control valve, and the coating liquid is circulated.
(2) When the coating liquid is applied to the web with a second coating thickness h2 (however, h2> h1), the coating liquid is continuously applied to the liquid reservoir from the first pump. Along with pumping, the coating liquid is intermittently pumped from the second pump to the liquid reservoir via the control valve.
Web coating equipment to control. The control unit alternately coats the web with the portion having the first coating thickness h1 and the portion having the second coating thickness h2.
The web coating device according to claim 1. The foundation coating part is pre-intermittently coated on the web.
The control unit is coated with the first coating thickness h1 at the position of the foundation coating unit.
At the position of the uncoated portion between the foundation coated portion and the adjacent foundation coated portion, coating is performed with the second coating thickness h2.
The web coating device according to claim 1. The control valve is composed of two two-way valves.
The inlets of the two two-way valves are connected to the second pump and
One outlet of the two-way valve is connected to the liquid reservoir and is connected to the liquid reservoir.
The outlet of the other two-way valve is connected to the tank.
The web coating device according to claim 1. The control valve is composed of a three-way valve.
The inlet of the three-way valve is connected to the second pump.
One outlet of the three-way valve is connected to the liquid reservoir and is connected to the liquid reservoir.
The other outlet of the three-way valve is connected to the tank.
The web coating device according to claim 1. The tank is composed of a first tank for the first pump and a second tank for the second pump.
The web coating device according to claim 1. The control unit determines the pumping amount of the coating liquid from the first tank per unit time based on the first coating thickness h1, the coating width, and the transport speed V.
The web coating device according to claim 6. In the control unit, the pumping amount of the coating liquid from the second tank per unit time is a value Δh obtained by subtracting the first coating thickness h1 from the second coating thickness h2 and the coating. Determined based on the work width and the transport speed V.
The web coating device according to claim 6. The web is a film, a metal foil, a metal net, a paper, or a cloth.
The web coating device according to claim 1.

Images