KR101983507B1 - Double-sided coating device - Google Patents

Abstract

Disclosed is an apparatus for double-sided coating, which applies a coating agent to both surfaces of a substrate to enhance productivity and coating quality. According to the apparatus for double-sided coating (100), one side surface (A) of a substrate coated with a coating agent by a first coating device (20) and the other side surface (B) of the substrate coated with a coating agent by a second coating device (30) are configured to pass from the coating devices through an exit (41B) of a drying device (40) while they don′t come into contact with any other members, wherein the second coating device (30) is configured to rotate forward in a travelling direction of the substrate and at the same time, make the other side surface (B) of the substrate come in contact with an outer circumference of a coating bar (31) accompanying a coating agent, so that the coating agent is metered and then coated on the other side surface (B) of the substrate in order for a coated layer to have predetermined thickness.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a two-side coating method and apparatus for applying a coating agent to both sides of a base material.

2. Description of the Related Art Conventionally, there are those disclosed in Patent Documents 1 and 2 as a double-side coating apparatus for applying a coating agent to both sides of a substrate.

The two-sided coating device described in Patent Document 1 is characterized in that the first coating device, the second coating device, and the drying device are arranged in order from the upstream side to the downstream side along the running line of the substrate made of plastic or metal, It is described that a coating agent is applied to one side of a base material by a first coating device, a coating agent is applied to the other side of the base material by a second coating device, and a base material coated with a coating agent on both sides is dried by a drying device have.

The two-sided coating device described in Patent Document 2 is characterized in that the first coating device and the second coating device are arranged in order from the upstream side to the downstream side along the running line of the substrate constituting the separator for a lithium ion battery, A coating agent is applied to one side of a base material by a coating device and a coating agent is applied to the other side of the base material by a second coating device.

WO 2014/188671 A1 CNU 206184699

In the two-sided coating device described in Patent Documents 1 and 2, the first coating device and the second coating device are constituted of a gravure roll or a gravure roll rotationally driven with a coating agent, Are sequentially brought into contact with each other so that the coating agent is applied to each of both surfaces of the substrate so as to have a predetermined thickness. In this manner, the substrate coated with the coating agent on both sides by the first coating device and the second coating device is introduced into the drying device of the next step and dried.

At this time, in the double-sided coating device described in Patent Document 1, the base material to be introduced into the drying device is formed such that each of the non-coating areas on one side and the other side of both ends in the width direction of the base material So as to be supported between the upper and lower sides. This prevents the vibration of the base material, which rattles inside the drying device, from being applied to the second application device, and avoids impairing the application quality of the second application device.

However, in the double-sided coating apparatus described in Patent Document 1, it is necessary to provide a non-forming region for supporting a pair of supporting rolls sandwiching between one pair of supporting rollers on both sides of one side surface and the other side surface of the base material, The entire surface of the other side surface can not be used as the application region by the first application device and the second application device, and the productivity of the application device is deteriorated.

When the substrate is a plastic film constituting a separator for a lithium ion battery, even if both ends of one side surface and the other side surface of the plastic film are sandwiched between a pair of support rollers, The vibration can not be sufficiently restrained to the second coating device in the entire width direction of the base material, and the coating quality by the second coating device may be impaired.

In the two-sided coating device described in Patent Document 2, one side surface and the other side of the base material coated with the coating agent are wound on the first and second rotation shafts while the first and second coating devices are not dry And is returned to the next process. Therefore, the coating film of the coating agent applied on the one side surface and the other side surface of the base material by the first coating device and the second coating device is dirty by winding on each of the rotation shafts before the drying process, Thereby impairing the coating quality.

It is an object of the present invention to improve productivity and application quality of a double-side coating method and apparatus for applying a coating agent to both sides of a substrate.

The present invention according to claim 1 is characterized in that a first coating device, a second coating device, and a drying device are arranged in order from upstream to downstream along a running line of a base material, In which a coating agent is applied to the other side of a base material by a second coating device and a base material coated with a coating agent on both sides is dried by a drying device, And the other side of the base material coated with the coating agent is allowed to pass from each of these coating devices through the outlet of the drying device in a noncontact state in which the one side of the base material and the other side of the base material coated with the coating material are not in contact with other members, 2 In the coating device, by bringing the other side of the substrate into contact with the outer periphery of the application bar accompanied by the coating agent along with the forward rotation of the substrate toward the running direction of the substrate, Metered and applied on the other side of the substrate so as to have a predetermined thickness,

Wherein the drying apparatus is constituted by a floating dryer in which upper and lower hot air blowing nozzles are arranged at various positions on the upper and lower sides along the running line of the base material and the hot air blowing nozzle arranged at the most inlet side of the drying device Hot air is blown out, and the base material is pushed into the application bar of the second coating device by the hot air.

The invention according to claim 2 is characterized in that in the invention according to claim 2, the distance from the application opening of the second application device to the hot air discharge nozzle disposed at the most inlet side of the drying device is within a range of 500 mm to 2000 mm .

According to a third aspect of the present invention, in the invention according to the first or second aspect, the substrate coated with the coating agent is a porous plastic film constituting a separator for a lithium ion battery.

The invention according to claim 4 is characterized in that, in the invention according to claim 1 or 2, the substrate coated with the coating agent is a nonwoven fabric constituting a separator for a lithium ion battery.

The invention according to claim 5 is characterized in that a first coating device, a second coating device, and a drying device are arranged in order from upstream to downstream along the running line of the base material, and one side In which a coating agent is applied to the other side of the base material by a second coating device and a base material coated with a coating agent on both sides is dried by a drying device. In the first and second coating devices, The one side of the coated substrate and the other side of the substrate coated with the coating agent in the second coating device are allowed to pass from each of these coating devices through the outlet of the drying device in a non- And the second coating device is configured so that the other side of the substrate is brought into contact with the outer periphery of the coating bar which carries the coating agent together with the regular- And a coating agent is applied on the other side of the base material so as to have a predetermined thickness,

Wherein the drying apparatus is constituted by a floating dryer in which upper and lower hot air blowing nozzles are arranged at various positions on the upper and lower sides along the running line of the base material and the hot air blowing nozzle arranged at the most inlet side of the drying device Hot air is blown out and the base material can be pushed into the application bar of the second application device by the hot air.

According to a sixth aspect of the present invention, in the invention according to the fifth aspect, the distance from the application nozzle of the second application device to the hot air discharge nozzle disposed at the most inlet side of the drying device is within the range of 500 mm to 2000 mm It is.

According to a seventh aspect of the present invention, in the invention according to the fifth or sixth aspect, the substrate is a polyethylene film or a polypropylene film having a film thickness within a range of 5 μm or more and 30 μm or less.

The invention according to claim 8 is characterized in that, in the invention according to claim 7, the substrate coated with the coating agent is a porous plastic film constituting a separator for a lithium ion battery.

According to a ninth aspect of the present invention, in the invention according to the fifth or sixth aspect, the base material is a nonwoven fabric having a base thickness within a range of 10 μm or more and 30 μm or less.

The invention according to claim 10 is the invention according to claim 9, wherein the substrate coated with the coating agent is a nonwoven fabric constituting a separator for a lithium ion battery.

The invention according to claim 11 is characterized in that, in the invention according to claim 8, the running speed of the substrate is within a range of 5 m / min to 150 m / min.

The invention according to claim 12 is the coating liquid according to claim 8, wherein the coating agent is a coating liquid having a viscosity within a range of 0.5 mPa · s to 100 mPa · s.

According to a thirteenth aspect of the present invention, in the invention according to the fifth or sixth aspect, further, an off-line facility for winding the base material of the base material by winding the base material through the first application device, the second application device, .

(Claims 1 and 5)

(a) In a non-contact state in which the one side of the substrate coated with the coating agent by the first coating device and the other side of the substrate coated with the coating agent by the second coating device are not in contact with other members, Through the outlet of the drying apparatus. Therefore, the entire surface of one side of the substrate and the other side of the substrate is used as a coating area by the first coating device and the second coating device, and is used as a drying area by the drying device, and the productivity of the double- .

(b) the substrate is passed from the first and second coating devices through the outlet of the drying device in a non-contact state without contact with other members such as support rolls, The distance is such that the vibration of the substrate affects the second application device.

By the way, in the second coating device, the other side of the base material is brought into contact with the outer periphery of the application bar accompanied by the coating agent along with the forward transfer cylinder toward the running direction of the base material, so that the coating material is measured on the other side of the base material Is applied. As a result, the coating agent carried along the outer periphery of the application bar and brought into the other side of the substrate forms a uniform and stable liquid droplet (bead) in the width direction of the substrate immediately upstream of the application bar, A coating film having a predetermined thickness, which is measured by a coating bar, is formed on the downstream side of the coating bar. Therefore, even if vibration of the base material rattling inside the drying device is applied to the side of the second application device, the vibration is blocked by the application bar and is prevented from propagating to the upstream side of the application bar, The second coating device does not cause coating defects such as step unevenness on the coating film formed on the other side surface of the substrate, and the coating quality formed by the second coating device .

(c) The double-sided coating apparatus is a system in which a coating agent is continuously applied to both sides of one side surface and the other side surface of a substrate by means of a first coating apparatus and a second coating apparatus and the substrate coated with the coating agent And then dried. Therefore, the productivity of the double-sided coating device can be improved, and the total length of the double-sided coating device can be shortened and the equipment cost can be reduced.

(d) In the floating dryer constituting the drying apparatus, the hot air discharge nozzle arranged at the most inlet side pushes the substrate onto the application bar of the second application device by hot air sent toward one side of the substrate. Therefore, the base material is difficult to float against the application bar of the second application device, and the other side of the base material stably contacts the outer periphery of the application bar of the second application device and travels, The liquid level can be kept more stable, the metering of the coating agent by the application bar can be stabilized, and the coating quality by the second coating device can be further improved.

(Claims 2 and 6)

(e) In the above (d), the distance from the application opening of the second application device to the hot air discharge nozzle disposed at the most inlet side of the drying device is within the range of 500 mm to 2000 mm, Occurrence of sagging and rattling of the substrate can be suppressed more appropriately by the absence of a support for the substrate between the application opening of the application device and the inlet of the drying device.

(Claims 7 and 9)

(f) When the substrate is a thin polyethylene film or a polypropylene film having a film thickness within a range of 5 to 30 μm, or a nonwoven fabric having a substrate thickness within a range of 10 to 30 μm, (B), (d), and (e) can significantly improve the problem caused by the fact that the vibration of the rattling base material tends to reach the second application device.

(Claims 3, 4, 8, 10)

(g) When the substrate to which the coating agent is applied is a porous plastic film constituting a separator for a lithium ion battery or a nonwoven fabric constituting a separator for a lithium ion battery, vibration of the substrate rattling inside the drying apparatus is applied to the second application (B), (d), and (e) described above.

(Claim 11)

(h) The traveling speed of the above-mentioned item (g) is set within the range of 5 m / min to 150 m / min. By setting it to 5 m / min or more, productivity can be secured. By setting the speed to 150 m / min or less, it is avoided that the traveling speed becomes too high, the occurrence of the coating strip of the coating film formed on the substrate is suppressed, and the film thickness is easily adjusted.

(Claim 12)

(i) The viscosity of the coating agent of (g) is in the range of 0.5 mPa · s to 100 mPa · s inclusive. This prevents the viscosity from becoming too high, suppressing the occurrence of coating strips on the coating film formed on the substrate, and facilitating the film thickness adjustment.

(Claim 13)

(j) The double-sided coating device is constituted by an off-line facility for winding the base material of the substrate (g) described above and winding the base material through the first coating device, the second coating device and the drying device. As a result, a high-quality base material can be charged, and the base material can be transported by storage power to produce a high-quality separator for a lithium ion battery.

1 is a schematic view showing a double-sided coating device.
2 is a schematic view showing a second coating device.
3 is a schematic view showing the application bar.
4 is a schematic view showing a state in which a coating agent is carried on a pocket of a coating bar.

The double-sided coating device 100 shown in Fig. 1 is provided with a winding device 10, a first coating device 20 (first coating device), and a second coating device 20 The second coating device 30, the drying device 40, and the winding device 50 are arranged in this order.

The double-sided coating device 100 is a device in which the base of the base material 1 is unwound from the unwinding device 10 and both surfaces of the base material 1 are coated with a first coating device 20 and a second coating device 30, And an off-line facility for continuously carrying out a series of treatments for drying by the drying device 40 and winding the dried base material 1 on the winding device 50.

The base material 1 is made of a flexible sheet material made of plastic or metal and is supplied to the double-sided coating device 100 in a state of being formed into a long strip shape and rolled into a core material.

In the present embodiment, the base material 1 may be a thin polyethylene film or a polypropylene film having a film thickness within a range of, for example, 5 占 퐉 or more and 30 占 퐉 or less.

In the present embodiment, the base material 1 to which a coating agent (heat-resistant agent or adhesive) is applied may be a porous plastic film constituting a separator for a lithium ion battery. At this time, it is preferable that the traveling speed of the substrate 1 is within the range of 5 m / min to 150 m / min. The above-mentioned coating agent applied to the base material 1 is preferably a coating liquid whose viscosity is within the range of 0.5 mPa · s to 100 mPa · s.

In addition, a separator for a lithium ion battery has recently been widely used in mobile phones, liquid crystal TVs, automobiles, and the like, and a polyethylene film or a polypropylene film having a porous property is used for the separator. As a function of the separator for a lithium ion battery, there is a function of separating the positive electrode and the negative electrode so as to prevent short-circuiting thereof, to form a passage for lithium ion conduction while maintaining the electrolyte solution, And a shutdown function for stopping the battery reaction.

Here, in the separator for a lithium ion battery, the porous polyethylene film or the polypropylene film is deformed by heating and the adhesiveness of the porous film to the positive electrode or the negative electrode is lowered, so that the porous polyethylene film or the polypropylene film is hardly thermally deformed, It is desired to have sufficient adhesiveness. Therefore, in the separator for a lithium ion battery, a ceramic heat-resistant material (heat-resistant paint) is applied to both surfaces of a base material 1 made of a polyethylene film or a polypropylene film to suppress thermal deformation, .

In the practice of the present invention, the base material 1 may be a thin nonwoven fabric having a base thickness within a range of 10 μm or more and 30 μm or less, for example.

The separator for a lithium ion battery can be constituted by the base material 1 coated with a coating agent (heat-resistant agent or adhesive) on both surfaces of the nonwoven fabric. At this time, it is preferable that the traveling speed of the substrate 1 is within the range of 5 m / min to 150 m / min. The above-mentioned coating agent applied to the base material 1 is preferably a coating liquid whose viscosity is within the range of 0.5 mPa · s to 100 mPa · s.

In the double-side applicator 100, the other side B (also on one side A) of the base material 1, which is unwound from the unwinding device 10, is guided by the guide roll 2a, The substrate 1 is guided to the first coating device 20 in the running state and a coating agent such as heat resistance agent or adhesive is applied to one side surface A of the base material 1 by the first coating device 20. [ The base material 1 coated with the coating agent on one side surface A by the first coating device 20 is a base material in which the other side B of the base material 1 is supported by the guide rolls 2b and 2c, The second coating device 30 is applied to the other side B of the base material 1 with a coating agent such as a heat resistant agent or an adhesive agent. The base material 1 coated with the coating agent on both sides A and B in this manner is dried by passing through the inlet 41A of the drying apparatus 40 through the outlet 41B and is then supported on the guide roll 2d Guided and wound around the winding device 50.

In the double-sided coating device 100, the side surface A of the base material 1 to which the coating agent is applied and the side surface A of the base material 1 to which the coating agent is applied are applied to the first coating device 20, Each of the other side surfaces B is allowed to pass from each of these application devices 20 and 30 to the outlet 41B of the drying device 40 in a noncontact state in which the other side surfaces B, Consists of.

At this time, the second coating device 30 is constituted by a bar type as shown in Figs. 1 and 2, and is rotated forward (in the direction of the arrow N) toward the running direction of the substrate 1 And the other side B of the substrate 1 is brought into contact with the outer periphery of the application bar 31 accompanied by the coating agent so that the coating agent is applied to the other side B of the substrate 1 So as to have a thickness.

2, the second coating device 30 is a coating agent supplying device for continuously supplying a coating agent together with the coating bar 31. The coating agent receiving tank 32, the pump 33, A filter 34, a manifold 35, and a collecting portion 36. The coating agent 2 contained in the coating agent storage tank 32 is supplied to the manifold 35 via the filter 34 by the pump 33 and is supplied to the manifold 35 in the width direction 31), and is discharged from the slit 35A toward the outer periphery of the coating bar 31 during normal rotation, and is then carried on the outer periphery of the coating bar 31. As shown in Fig. A predetermined amount of the coating agent which has been metered and loaded so as to fill the pockets 31P (Fig. 4) of a certain volume on the outer periphery of the application bar 31 contacts the outer periphery of the application bar 31 and travels at a predetermined speed Is transferred and applied onto a lower surface (other side B) of the base material 1 at a constant transfer rate (60 to 70% of the volume of the pocket 31P) A coating film 2K having a predetermined thickness is formed on the other side B of one base material 1. The remaining coating agent which has been carried into the pockets 31P on the outer periphery of the application bar 31 but not transferred to the other side B of the substrate 1 is discharged from the recovery section 36 on the downstream side of the application bar 31 And is returned to the tank 32.

The coating agent transferred to the other side B of the substrate 1 along with the outer periphery of the application bar 31 forms a liquid droplet 2J (bead) immediately upstream of the application bar 31 do. In order to stabilize the liquid pool 2J formed immediately upstream of the application bar 31, the pump 33 is excellent in quantitative and intravenous (constantly pulsating) properties and has a low shear It is preferable to employ a diaphragm pump.

As the application bar 31, a wire bar shown in Fig. 3 can be employed. For example, a wire 31B having a wire diameter of 0.025 to 1.5 mm on the outer circumferential surface of a round bar 31A having an outer diameter of 6 to 13 mm is tightly wound The volume of the pocket 31P made of the spiral groove-shaped space between the wires is adjusted by selecting the thickness of the wound wire and the amount of coating to be weighed is determined by this volume.

As the application bar 31, a groove having a spiral shape (which may be a ring shape) formed by rolling is formed on the outer circumferential surface of the round bar, and a coating amount to be weighed by the volume (depth) The rolling bar may be employed.

The application bar 31 may be subjected to hard chrome plating or diamond-like carbon treatment in order to improve the durability and releasability of the surface in contact with the substrate 1.

As the first coating device 20, a gravure coating method, a slot die coating method, or the like can be employed in addition to the coating method which is the same as that of the second coating device 30.

The first coating device 20 of the bar type is provided with the coating bar 31 in the second coating device 30, the coating agent receiving tank 32, the pump 33, the filter 34, the manifold 35 1, a coating container 21, a coating agent receiving tank, a pump, a filter, a manifold, and a collecting section, which are the same as those of the collecting section 36, The one side A of the substrate 1 is brought into contact with the outer periphery of the application bar 21 carrying the coating agent so that the coating agent is weighed so as to have a predetermined thickness on one side A of the base material 1, do.

The first coating device 20 made of a gravure method scrapes the coating agent from the coating agent supply tank by a gravure roll rotating in the reverse direction with respect to the running direction of the substrate 1 and scrape off the excess coating agent on the gravure roll with the doctor blade A predetermined amount of a coating agent is applied to one side surface (A) of the base material (1) so as to have a predetermined thickness.

The first coating device 20 of the slot die type applies a predetermined amount of the coating agent pushed out from the die head to one side surface A of the substrate 1 while traveling to a predetermined thickness.

The drying apparatus 40 is constituted by a floating dryer 41 of a noncontact drying type and passes the base material 1 on both sides A and B coated with a coating agent for drying treatment.

The floating dryer 41 has an inlet 41A through which the substrate 1 is fed and an outlet 41B through which the substrate 1 is fed. The substrate 1 to be driven is allowed to pass in a floating state without being supported by upper and lower support rolls. In the inside of the floating dryer 41, upper and lower hot air blowing nozzles 42 arranged vertically and staggered are arranged at various positions on the upper and lower sides along the running line of the substrate 1. Each hot air discharge nozzle 42 blows hot air (dry air) toward the base material 1 from above and below.

In the thin substrate 1, the hot air blown by each of the hot air blowing nozzles 42 vibrates up and down with a high frequency remarkably by the hot air blown by the hot air blowing nozzle 42 Become rattled

In the drying apparatus 40, the hot air discharge nozzle 42 disposed at the side of the inlet 41A closest to the floating dryer 41 blows hot air toward one side A of the substrate 1 (In the direction of the arrow H), and the base material 1 subjected to the wind pressure of this hot air is pushed into the outer peripheral surface of the application bar 31 in the second application device 30. [

When the distance Z from the application bar 31 of the second application device 30 to the hot air delivery nozzle 42 disposed at the most inlet 41A side of the drying device 40 is long, There is no support for the base material 1 between the application bar 31 of the base 30 and the inlet 41A of the drying device 40 and the free run of the base material 1 becomes long, Tensile strength) of the base material 1, sufficient tension can not be applied to the base material 1, and as a result, sagging or rattling easily occurs in the base material 1 therebetween, thereby affecting the quality of the coating material. The distance Z from the application bar 31 of the second coating device 30 to the hot air discharge nozzle 42 disposed at the most inlet 41A side of the drying device 40 is 500 mm or more and 2000 mm or less , And is preferably set to 600 mm. This allows the base material 1 to be pushed into the application bar 31 of the second application device 30 by the wind pressure of hot air blown by the hot air delivery nozzle 42 and the application of the second application device 30 The occurrence of sagging or rattling of the base material 1 between the bar 31 and the inlet 41A of the drying apparatus 40 is suppressed.

Therefore, the present embodiment has the following operational effects.

(a) A side surface (A) of the base material (1) coated with a coating agent and a side surface (B) of the base material (1) coated with the coating agent in the second coating device (30) And passes through the respective coating apparatuses 20 and 30 from the coating apparatuses 20 and 30 to the outlet 41B of the drying apparatus 40 in a noncontact state in which no contact is made with other members. The entire surface of the one side surface A and the other side surface B of the base material 1 is used as the application region by the first application device 20 and the second application device 30, And the productivity of the double-side applicator 100 can be improved.

(b) The base material 1 does not come in contact with other members such as a support roll from the first and second coating devices 20 and 30 to the outlet 41B of the drying device 40, The vibration of the base material 1 that rattles in the interior of the drying device 40 reaches the second application device 30. [

The second coating device 30 is provided with the second coating device 30 which contacts the outer periphery of the application bar 31 carrying the coating agent along with the forward rotation of the substrate 1 in the running direction of the substrate 1, The coating agent is applied on the other side (B) of the base material (1) so as to have a predetermined thickness. As a result, the coating agent carried along the outer periphery of the coating bar 31 and brought into the other side B of the base material 1 is provided on the upstream side of the coating bar 31 in the width direction of the base material 1 A coating film 2K having a predetermined thickness metered by the coating bar 31 is formed on the downstream side of the coating bar 31. The coating film 2K is formed on the downstream side of the coating bar 31, Even if the vibration of the base material 1 rattling inside the drying device 40 reaches the side of the second application device 30, the vibration is blocked by the application bar 31, The second coating device 30 does not disturb the stable state of the liquid droplet 2J immediately upstream of the application bar 31 and therefore the substrate 1 The coating film 2K formed on the other side B of the first coating device 30 does not cause coating defects such as step stains and does not impair coating quality by the second coating device 30. [

(c) The double-sided coating device 100 is continuously provided on both sides of one side A and the other side B of the base material 1 by the first coating device 20 and the second coating device 30, And the base material coated with the coating agent on both sides thereof is subjected to a drying treatment in one step by means of a single drying apparatus 40. Therefore, the productivity of the double-side applicator 100 can be improved, and the overall length of the double-side applicator 100 can be shortened and the equipment cost can be reduced.

(d) In the floating dryer 41 constituting the drying apparatus 40, the hot air blowing nozzle 42 disposed on the side of the most inlet 41A is fed toward one side A of the substrate 1 The substrate 1 is pushed into the application bar 31 of the second application device 30 by the generated hot air. The base material 1 is hard to float against the application bar 31 of the second application device 30 and the other side B of the base material 1 is applied to the application bar 30 of the second application device 30 31 and the liquid droplet 2J formed on the immediately upstream side of the application bar 31 is further stabilized and the metering of the coating agent by the application bar 31 is stabilized And the coating quality of the second coating device 30 can be further improved.

(e) The distance from the application bar 31 of the second coating device 30 to the hot air delivery nozzle 42 disposed on the side of the most inlet 41A of the drying device 40 in the above-described (d) The support for the base material 1 between the coating bar 31 of the second coating device 30 and the inlet 41A of the drying device 40 is set to be within the range of 500 mm to 2000 mm Occurrence of sagging or rattling of the base material 1 therebetween can be suppressed more appropriately due to lack thereof.

(f) When the base material (1) is a thin polyethylene film or a polypropylene film having a film thickness within a range of 5 μm or more and 30 μm or less, or a nonwoven fabric having a base thickness of 10 μm or more and 30 μm or less, (B), (d), and (e) described above, the problem caused by the fact that the vibration of the base material 1, which rattles in the interior of the second coating device 40, Can be improved.

(g) When the substrate 1 to which the coating agent is applied is a porous plastic film constituting a separator for a lithium ion battery or a nonwoven fabric constituting a separator for a lithium ion battery, (B), (d), and (e) described above can solve the problem caused by the fact that the vibration of the first coating device 1 is likely to reach the second coating device 30. [

(h) The traveling speed of the base material (1) of the above-mentioned (g) is set within the range of 5 m / min to 150 m / min. By setting it to 5 m / min or more, productivity can be secured. When the speed is 150 m / min or less, the running speed is prevented from being too fast, the occurrence of the coating strip of the coating film 2K formed on the substrate 1 is suppressed, and the film thickness is easily adjusted.

(i) The viscosity of the coating agent of (g) is in the range of 0.5 mPa · s to 100 mPa · s inclusive. This prevents the viscosity from becoming too high, suppressing the occurrence of coating strips of the coating film 2K formed on the base material 1, and facilitating the film thickness adjustment.

(j) The double-sided applicator 100 is used to pull out the base material 1 of the above-mentioned substrate 1 (g), and to apply the base material 1 to the first application device 20, the second application device 30, And an off-line facility for passing through the apparatus 40 and winding it. As a result, a high-quality base material 1 can be charged, and the base material 1 can be transported by low-tension conveyance to produce a high-quality separator for a lithium ion battery.

Although the embodiments of the present invention have been described in detail with reference to the drawings, it is to be understood that the invention is not limited to the specific embodiments thereof except as defined in the appended claims. do.

According to the present invention, it is possible to improve the productivity and the coating quality of a double-side coating method and apparatus for applying a coating agent to both sides of a substrate.

1: substrate
2: Coating agent
10:
20: First application device
30: Second application device
31: dispensing bar
40: Drying device
41: Floating dryer
41A: entrance
41B: Exit
42: hot air discharge nozzle
50: winding device
100: Double-sided coating device
A: one side
B: other side
L: Driving line
Z: Distance from dispensing bar to hot air dispensing nozzle

Claims (13)

A first coating device, a second coating device and a drying device are arranged in order from upstream to downstream along the running line of the base material, and a coating agent is applied to one side of the substrate by the first coating device A two-side coating method in which a coating agent is applied to the other side of a base material by a second coating device and a base material coated with a coating agent on both sides is dried by a drying device,
In a non-contact state in which the one side of the substrate coated with the coating agent is not in contact with the other side of the substrate coated with the coating agent by the first coating device, Lt; RTI ID = 0.0 >
In the second coating apparatus, the other side of the substrate is brought into contact with the outer periphery of the coating bar accompanied by the coating agent along with the forward transfer cylinder toward the running direction of the substrate, so that the coating agent is metered and applied on the other side of the substrate to a predetermined thickness ,
Wherein the drying apparatus is constituted by a floating dryer in which upper and lower hot air blowing nozzles are arranged at various positions in the upper and lower sides along the running line of the substrate,
Wherein the hot air blowing nozzle disposed at the most inlet side of the drying device sends hot air toward one side of the base material and the substrate is pushed into the application bar of the second application device by the wind pressure of the hot air. The method according to claim 1,
Wherein the distance from the application opening of the second application device to the hot air delivery nozzle disposed at the most inlet side of the drying device is within a range of 500 mm or more and 2000 mm or less. 3. The method according to claim 1 or 2,
Wherein the substrate coated with the coating agent is a porous plastic film constituting a separator for a lithium ion battery. 3. The method according to claim 1 or 2,
Wherein the substrate coated with the coating agent is a nonwoven fabric constituting a separator for a lithium ion battery. The first coating device, the second coating device and the drying device are arranged in order from the upstream side to the downstream side along the running line of the substrate, the coating agent is applied to one side of the substrate by the first coating device, 2 A two-sided coating device configured to apply a coating agent to the other side of a base material by a coating device and to dry the base material coated with a coating agent on both sides with a drying device,
In a non-contact state in which the one side of the substrate coated with the coating agent is not in contact with the other side of the substrate coated with the coating agent by the first coating device, To pass through the outlet of the < RTI ID = 0.0 >
The second coating device is configured to apply the coating agent to the other side of the substrate so as to have a predetermined thickness and to apply it by bringing the other side of the substrate into contact with the outer periphery of the coating bar accompanied by the coating agent along with the forward- Respectively,
Wherein the drying apparatus is constituted by a floating dryer in which upper and lower hot air blowing nozzles are arranged at various positions in the upper and lower sides along the running line of the substrate,
Wherein the hot air blowing nozzle disposed at the most inlet side of the drying device feeds hot air toward one side of the base material and allows the base material to be pushed onto the application bar of the second application device by the wind pressure of the hot air. 6. The method of claim 5,
Wherein the distance from the application opening of the second application device to the hot air delivery nozzle disposed at the most inlet side of the drying device is within a range of 500 mm or more and 2000 mm or less. The method according to claim 5 or 6,
Wherein the substrate is a polyethylene film or a polypropylene film having a film thickness within a range of 5 占 퐉 or more and 30 占 퐉 or less. 8. The method of claim 7,
Wherein the substrate coated with the coating agent is a porous plastic film constituting a separator for a lithium ion battery. The method according to claim 5 or 6,
Wherein the substrate is a nonwoven fabric having a substrate thickness within a range of 10 占 퐉 to 30 占 퐉. 10. The method of claim 9,
Wherein the substrate to which the coating agent is applied is a nonwoven fabric constituting a separator for a lithium ion battery. 9. The method of claim 8,
Wherein the running speed of the substrate is within a range of 5 m / min to 150 m / min. 9. The method of claim 8,
Wherein the coating agent has a viscosity within a range of 0.5 mPa 占 퐏 to 100 mPa 占 퐏. The method according to claim 5 or 6,
And an off-line equipment for winding the base material of the base material through a first coating device, a second coating device and a drying device and winding the substrate.

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