JP5593967B2 - Coating device, coating method - Google Patents

Description

  The present invention relates to a coating apparatus and a coating method in which a die for applying a coating liquid is provided on the surface of a substrate such as a web.

In the intermittent application by the conventional first coating device, the coating liquid is collected from the die to the air cylinder at the end of coating so that the coating liquid at the end of the coating section is not clearly cut and smeared. doing.
Moreover, in the intermittent application by the conventional 2nd coating apparatus, the circulation piping which circulates a coating liquid is installed, and the supply of the coating liquid to a die is started and stopped by switching a three-way valve . At the end of coating, the coating liquid remaining immediately before the die is removed by collecting it in the coating liquid collecting mechanism.

  However, any conventional coating apparatus is provided with piping for returning or discarding the collected coating liquid to the tank, which complicates the structure, increases the cost of the apparatus, and increases the size of the apparatus. End up.

  Further, in intermittent coating, it is important to discharge a predetermined flow rate from a die at the start of coating to achieve a desired coating thickness, which is important for improving the yield, but the conventional first coating apparatus. However, the flow rate of the paint discharged from the die at the start of coating is not controlled. Therefore, a desired coating thickness cannot be realized at the start of coating. In the second conventional coating apparatus, it is conceivable to control the flow rate of the paint discharged from the die at the start of coating by switching the three-way valve. However, the structure becomes complicated and the cost of the apparatus increases. The device becomes large.

  Here, in Patent Document 1, paste (coating liquid) is collected and stored in a tank from the die at the end of application in intermittent coating, and the paste stored in the tank is supplied to the die again at the start of coating. Thus, a technique for discharging is disclosed.

JP 2003-190863 A

  However, in the technique of Patent Document 1, the coating liquid collected from the die at the end of coating is combined with the coating liquid in the tank, and then the coating liquid is supplied from the tank to the die at the start of coating. At times, the pressure of the coating liquid between the tank and the die cannot be sufficiently obtained, and it is difficult to supply the coating liquid to the die at a target flow rate. Therefore, a desired coating thickness cannot be realized at the start of coating.

  Accordingly, the present invention has been made to solve the above-described problems, and provides a coating apparatus and a coating method capable of realizing a desired coating thickness at the start of coating with a simple structure. , Is an issue.

  One aspect of the present invention made to solve the above problems is a coating liquid supply tank for storing a coating liquid, a die for discharging the coating liquid supplied from the coating liquid supply tank, and at the end of coating In a coating apparatus having a coating liquid recovery mechanism for recovering the coating liquid from the die, the coating liquid recovery mechanism stores the recovered coating liquid, and discharges the coating liquid at the start of coating, so that the die It is characterized by supplying to.

  According to this aspect, the coating liquid recovery mechanism stores the recovered coating liquid, discharges the coating liquid at the start of coating, and supplies it to the die, so that the coating liquid is supplied from the coating liquid supply tank to the die at the start of coating. To compensate for the lack of coating liquid. Therefore, a coating liquid having a desired flow rate can be supplied to the die at the start of coating. Moreover, piping for returning or discarding the coating liquid collected by the coating liquid collecting mechanism as in the prior art is unnecessary, and a simple structure can be achieved. Therefore, a desired coating thickness can be realized at the start of coating with a simple structure.

In another aspect of the present invention , the tank is a flow rate of the coating liquid discharged from the coating liquid supply tank so that the flow rate of the coating liquid supplied to the die becomes a desired flow rate at the start of coating. It has a control part which controls the discharge flow rate and the mechanism discharge flow rate which is the flow rate of the coating solution discharged from the coating solution collection mechanism .

  According to this aspect, since the tank discharge flow rate and the mechanism discharge flow rate are controlled at the start of coating, the coating liquid having a desired flow rate can be supplied to the die more reliably at the start of coating. Therefore, a desired coating thickness can be realized more reliably at the start of coating.

  In the above aspect, the apparatus has a tank flow rate measuring unit for measuring the tank discharge flow rate, and the control unit is configured to start the coating based on the tank discharge flow rate measured by the tank flow rate measuring unit. It is preferable to control the tank discharge flow rate and the mechanism discharge flow rate.

  According to this aspect, the flow rate of the coating liquid to be discharged from the coating liquid collection mechanism can be grasped based on the measured flow rate of the coating liquid discharged from the coating liquid supply tank. Therefore, the coating liquid recovery mechanism can accurately compensate for the shortage of the coating liquid according to the change in the coating liquid supplied from the coating liquid supply tank to the die at the start of coating. Therefore, a coating liquid having a desired flow rate can be supplied to the die at the start of coating more reliably, and a desired coating thickness can be realized at the start of coating more reliably.

  In the above aspect, the tank flow rate measuring unit that measures the tank discharge flow rate and the mechanism flow rate measurement unit that measures the mechanism discharge flow rate, the control unit at the start of coating, The tank discharge flow rate and the mechanism discharge flow rate are set such that the sum of the tank discharge flow rate measured by the measurement unit and the mechanism discharge flow rate measured by the mechanism flow rate measurement unit becomes a desired flow rate of the coating liquid. It is desirable to control.

  According to this aspect, the flow rate of the coating liquid supplied to the die at the start of coating can be grasped. For this reason, the coating liquid recovery mechanism can accurately compensate for the shortage of the coating liquid supplied from the coating liquid supply tank to the die in accordance with the change in the flow rate of the coating liquid supplied to the die. Therefore, a coating liquid having a desired flow rate can be supplied to the die at the start of coating more reliably, and a desired coating thickness can be realized at the start of coating more reliably.

  In the above aspect, the apparatus has a die flow rate measuring unit that measures a die supply flow rate that is a flow rate of the coating liquid supplied to the die, and the control unit uses the die flow rate measuring unit at the start of coating. It is preferable to control the tank discharge flow rate and the mechanism discharge flow rate based on the measured die supply flow rate.

According to this aspect, the flow rate of the actual coating liquid supplied to the die at the start of coating can be grasped. For this reason, the coating liquid recovery mechanism can accurately compensate for the shortage of the coating liquid supplied from the coating liquid supply tank to the die in accordance with the change in the flow rate of the actual coating liquid supplied to the die. Therefore, a coating liquid having a desired flow rate can be supplied to the die at the start of coating more reliably, and a desired coating thickness can be realized at the start of coating more reliably.

  In the above aspect, the die flow rate measuring means is preferably a pressure gauge that measures the pressure of the coating liquid.

  According to this aspect, since a pressure gauge that is generally less expensive than a flow meter is used, the cost can be reduced.

Another aspect of the present invention made in order to solve the above problems is a coating liquid supply tank in which a coating liquid is stored, a die for discharging the coating liquid supplied from the coating liquid supply tank, and a coating end In a coating method using a coating liquid recovery mechanism that sometimes collects the coating liquid from the die, the coating liquid collected and stored in the coating liquid recovery mechanism is discharged at the start of coating and supplied to the die A tank discharge flow rate, which is a flow rate of the coating liquid discharged from the coating liquid supply tank, and the coating liquid so that a flow rate of the coating liquid supplied to the die becomes a desired flow rate at the start of coating. The mechanism discharge flow rate that is the flow rate of the coating liquid discharged from the liquid recovery mechanism is controlled by a control unit .

  According to the coating apparatus and the coating method according to the present invention, a desired coating thickness can be realized at the start of coating with a simple structure.

1 is a configuration diagram of Example 1. FIG. FIG. 6 is a configuration diagram of Example 2. FIG. 6 is a configuration diagram of Example 3. FIG. 6 is a configuration diagram of Example 4. FIG. 5 is a relationship diagram between the flow rate of the coating liquid discharged from the pump and the coating liquid recovery mechanism at the start of coating and the flow rate of the coating liquid discharged from the die. It is a figure which shows the evaluation result of a comparative example. It is a block diagram of a comparative example. FIG. 6 is a diagram showing the evaluation results of Example 1. It is a figure which shows the evaluation result of Example 2. It is a figure which shows the evaluation result of Example 3. It is a figure which shows the evaluation result of Example 4. It is a figure which shows the list of evaluation results.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
In addition, the coating apparatus of a present Example is used as an apparatus which bears a coating process among the manufacturing methods of the electrode plate in batteries, such as a lithium ion secondary battery, for example.
[Example 1]
First, the structure of the coating apparatus 1 of Example 1 is demonstrated. FIG. 1 is a configuration diagram of the first embodiment.
As shown in FIG. 1, the coating apparatus 1 of Example 1 includes a die 10, a backup roll 12, a web 14, a coating liquid supply tank 16, a pump 18, a flow meter 20, a shut-off valve 22, a coating liquid recovery mechanism 24, A control unit 26 and the like are included. The die 10, the coating liquid supply tank 16, the pump 18, the flow meter 20, and the shutoff valve 22 are provided in the first conduit 30, and the coating liquid recovery mechanism 24 is disposed between the die 10 and the shutoff valve 22. The second pipe 32 is branched from the first pipe 30.

  The die 10 is a means for discharging a coating liquid. In the die 10 of this embodiment, the coating liquid is supplied from the coating liquid supply tank 16 and the coating liquid recovery mechanism 24. The coating liquid discharged from the die 10 is applied to the web 14 provided at the tip of the discharge port 34 at the tip of the die 10 and conveyed by the backup roll 12. For example, in the production of an electrode plate, the web 14 is any metal foil (aluminum foil, copper foil, etc.) according to the type and application of the produced electrode plate, and the coating liquid is an electrode active material dissolved in a solvent. A slurry-like fluid in which (a positive electrode active material or a negative electrode active material) and a binder are mixed.

The coating liquid supply tank 16 is a storage unit that stores the coating liquid.
The pump 18 is a unit that is connected to the coating liquid supply tank 16 via the first conduit 30 and sends the coating liquid stored in the coating liquid supply tank 16 to the die 10.

  The flow meter 20 is provided at a position closer to the die 10 than the pump 18 and measures the flow rate of the coating liquid discharged from the coating liquid supply tank 16 by driving the pump 18. If a pressure gauge is provided instead of the flow meter 20 and the flow rate of the coating liquid is calculated and calculated based on the measurement result of the pressure gauge by the control unit 26, the pressure gauge is generally more than the flow meter. Since it is inexpensive, the cost can be reduced. The flow meter 20 or the pressure gauge is the first measuring means and is an example of the “tank flow measuring means” in the present invention.

  The shutoff valve 22 is a valve that shuts off or opens the pipe line between the pump 18 and the die 10, and in this embodiment, the position and flow rate of the branch point 36 between the first pipe line 30 and the second pipe line 32. It is provided between the position where the total 20 is provided.

  The coating liquid recovery mechanism 24 is means for recovering and storing the coating liquid from the die 10. The coating liquid recovery mechanism 24 can also discharge the recovered coating liquid and supply it to the die 10. For example, a cylinder is used as the coating liquid recovery mechanism 24.

  The control unit 26 controls the flow rate of the coating liquid discharged from the coating liquid supply tank 16 (first flow rate) (an example of the “tank discharge flow rate” of the present invention) and the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24. (Second flow rate) means for controlling (an example of the “mechanism discharge flow rate” of the present invention). In addition, the measurement result of the flow meter 20 is transmitted to the control unit 26.

  Next, the coating method in the coating apparatus 1 of Example 1 is demonstrated. In addition, intermittent coating is performed as a coating method. Here, intermittent coating is a coating method that repeats the interruption and resumption of the discharge of the coating liquid from the die 10. At the start of coating, the coating apparatus 1 according to the first embodiment opens the shutoff valve 22 and starts the pump 18 to start supplying the coating liquid from the coating liquid supply tank 16 to the die 10. At this time, the control unit 26 controls the driving of the pump 18 based on the measured value of the flow rate of the coating liquid discharged from the coating liquid supply tank 16 measured by the flow meter 20, and then from the coating liquid supply tank 16. Controls the flow rate of the discharged coating liquid.

  At the end of coating, the shutoff valve 22 is closed to stop the pump 18 and supply of the coating liquid from the coating liquid supply tank 16 to the die 10 is stopped. In this way, intermittent coating is performed. At the end of coating, the coating liquid recovery mechanism 24 sucks and collects the coating liquid remaining on the die 10 and stores it. Then, at the start of the subsequent coating, supply of the coating liquid from the coating liquid supply tank 16 to the die 10 is started, and the coating liquid collection mechanism 24 discharges the collected coating liquid and supplies it to the die 10.

  In Example 1, the amount of the coating liquid discharged from the coating liquid recovery mechanism 24 at the start of coating is arbitrarily determined. Specifically, since the shortage of the coating liquid supplied from the coating liquid supply tank 16 to the die 10 at the start of coating can be roughly predicted, the coating liquid recovery mechanism is determined according to the predicted shortage of coating liquid. The flow rate of the paint discharged from 24 is determined.

  According to the first embodiment as described above, at the start of coating, supply of the coating liquid from the coating liquid supply tank 16 to the die 10 is started, and the coating liquid is also discharged from the coating liquid recovery mechanism 24 so that the die 10 is discharged. To supply. Therefore, the insufficient flow rate of the coating liquid due to the supply of the coating liquid from the coating liquid supply tank 16 to the die 10 at the start of coating can be supplemented by the coating liquid discharged from the coating liquid collection mechanism 24. Therefore, a desired coating thickness can be realized at the start of coating by a simple structure and method.

[Example 2]
Next, Example 2 will be described. In the following description, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and different points are mainly described.
The coating apparatus 2 of the second embodiment differs from the coating apparatus 1 of the first embodiment in that the flow rate of the coating liquid discharged from the coating liquid collection mechanism 24 based on the measurement result of the flow meter 20 in the control unit 26. Is controlling.

Next, the coating method in the coating apparatus 2 of Example 2 is demonstrated.
In the coating apparatus 2 of the second embodiment, at the start of coating, the control unit 26 acquires information on the measurement result of the flow rate of the coating liquid discharged from the coating liquid supply tank 16 from the flow meter 20, and the measurement result. Based on this information, the flow rate of the coating liquid discharged from the coating liquid supply tank 16 and the coating liquid discharged from the coating liquid recovery mechanism 24 so that the flow rate of the coating liquid supplied to the die 10 becomes a target flow rate. The flow rate is controlled.

  According to the second embodiment as described above, the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24 is controlled based on the measurement result of the flow meter 20. Therefore, the insufficient flow rate of the coating liquid due to the supply of the coating liquid from the coating liquid supply tank 16 to the die 10 at the start of coating can be compensated more accurately by the coating liquid discharged from the coating liquid collection mechanism 24. Therefore, a desired coating thickness can be more reliably realized at the start of coating by a simple structure and method.

Example 3
Next, Example 3 will be described. In the following description, the same components as those in the first and second embodiments are denoted by the same reference numerals, description thereof is omitted, and different points are mainly described.
First, the structure of the coating apparatus 3 of Example 3 is demonstrated. FIG. 3 is a configuration diagram of the third embodiment.
The coating apparatus 3 according to the third embodiment is different from the coating apparatuses 1 and 2 according to the first and second embodiments in that a flow meter is provided in a second pipe line 32 provided between the coating liquid recovery mechanism 24 and the die 10. 38 is provided. The flow meter 38 is a means for measuring the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24. Then, information on the measured flow rate is transmitted from the flow meter 38 to the control unit 26. If a pressure gauge is provided instead of the flow meter 38 and the flow rate of the coating liquid is calculated based on the measurement result of the pressure gauge by the control unit 26, the pressure gauge is generally more than the flow meter. Since it is inexpensive, the cost can be reduced. The flow meter 38 or the pressure gauge is a second measuring unit and is an example of the “mechanism flow rate measuring unit” of the present invention.

Next, the coating method in the coating apparatus 3 of Example 3 is demonstrated.
The coating apparatus 3 of Example 3 is such that the total of the flow rate measured by the flow meter 20 and the flow rate of the coating liquid measured by the flow meter 38 is a desired flow rate at the start of coating. The flow rate of the coating liquid discharged from the coating liquid supply tank 16 is controlled, and the flow rate of the coating liquid discharged from the coating liquid collection mechanism 24 is controlled.

  According to the third embodiment as described above, the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24 is measured by the flow meter 38, and the coating liquid supply tank is based on the measurement result and the measurement result of the flow meter 20. The flow rate of the coating liquid discharged from 16 and the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24 are controlled. Therefore, the flow rate of the coating liquid supplied to the die 10 can be accurately set to a target flow rate, and a desired coating thickness can be obtained more reliably at the start of coating. Therefore, the film thickness shape of the coating film is improved.

Example 4
Next, Example 4 will be described. In the following description, components equivalent to those in the first to third embodiments are denoted by the same reference numerals, description thereof is omitted, and different points are mainly described.
First, the structure of the coating apparatus 4 of Example 4 is demonstrated. FIG. 4 is a configuration diagram of the fourth embodiment.
The coating apparatus 4 of the fourth embodiment is different from the coating apparatuses 1 to 3 of the first to third embodiments in that the branch point 36 of the first pipeline 30 and the second pipeline 32 is provided at the position and the die. Between the position where 10 is provided, a pressure gauge 40 is provided. The pressure gauge 40 measures the pressure of the coating liquid supplied to the die 10. Then, information on the measured flow rate is transmitted from the pressure gauge 40 to the control unit 26, and the flow rate of the coating liquid (third flow rate) calculated based on the pressure measured by the control unit 26 and supplied to the die 10. (An example of “die supply flow rate” in the present invention) is calculated. Although it is conceivable to provide a flow meter instead of the pressure gauge 40, since the pressure gauge is generally cheaper than the flow meter, the cost can be reduced by providing the pressure gauge 40. The pressure gauge 40 or the flow meter is a third measuring unit and is an example of the “die flow measuring unit” in the present invention.

Next, the coating method in the coating apparatus 4 of Example 4 is demonstrated.
In the coating apparatus 4 of the fourth embodiment, at the start of coating, the control unit 26 uses the pump 18 based on the flow rate of the coating liquid supplied to the die 10 calculated based on the measurement result of the pressure gauge 40. Is controlled to control the flow rate of the coating liquid discharged from the coating liquid supply tank 16 and to control the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24.

  According to the fourth embodiment as described above, the flow rate of the coating liquid discharged from the coating liquid supply tank 16 and the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24 are controlled based on the measurement result of the pressure gauge 40. To do. Therefore, the flow rate of the coating liquid discharged from the die 10 can be accurately set to a desired flow rate, and a desired coating thickness can be obtained more reliably at the start of coating. Therefore, the film thickness shape of the coating film is improved.

[Explanation of control effect of coating flow rate]
According to Examples 1 to 4 as described above, the relationship between the flow rate of the coating liquid discharged from the pump 18 and the coating liquid recovery mechanism 24 at the start of coating and the flow rate of the coating liquid discharged from the die 10 is shown in FIG. It becomes like 5.
As shown in FIG. 5, when the flow rate of the coating liquid discharged from the pump 18 and the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24 are combined, the flow rate of the coating liquid discharged from the die 10 is started. The start-up is quicker from time and the target flow rate can be reached with a small coating distance.

[Explanation of evaluation results]
Next, the evaluation results of the control of the coating liquid flow rate will be described. In addition, you may think that the film thickness change of the coating film of the part in which the coating liquid discharged from the die | dye 10 shown to the following evaluation results applied to the web 14 corresponds with the behavior of flow volume.

  FIG. 6 shows an evaluation result in a conventional coating apparatus 50 provided with a pipe 43 for discarding the coating liquid from the coating liquid recovery mechanism 24 as a comparative example. In the comparative example, as shown in FIG. 7, a waste liquid reservoir 42 for discarding the coating liquid from the coating liquid recovery mechanism 24 via the pipe 41 is provided, and a check valve 44 is provided in the second pipe line 32. A check valve 46 is provided in the pipe 41 between the coating liquid recovery mechanism 24 and the waste liquid reservoir 42. As described above, in the comparative example, the coating liquid is not supplied from the coating liquid recovery mechanism 24 to the die 10. Then, as an evaluation result, as shown in FIG. 6, at the start of coating, the film thickness of the coating film (flow rate of the coating liquid discharged to the web 14) gradually increases, and the end of the coating start portion Became a shape drooping drastically. In addition, the length of the loss which is a length from the coating start part to the film thickness of the desired coating film was 1.3 m.

  FIG. 8 shows the evaluation results in the coating apparatus 1 of Example 1. As shown in FIG. 8, the thickness of the coating film at the start of coating is large so as to protrude slightly, but the loss length is 1 m, which is smaller than that of the comparative example.

  FIG. 9 shows the evaluation results in the coating apparatus 2 of Example 2. As shown in FIG. 9, although the end part of the coating start part became a shape drooping slightly, the length of loss is 1 m and is smaller than a comparative example.

  FIG. 10 shows the evaluation results in the coating apparatus 3 of Example 3. As shown in FIG. 10, the thickness of the coating film (the flow rate of the coating liquid discharged onto the web 14) has rapidly increased since the start of coating. The length of the loss is 0.6 m, which is further smaller than those of Examples 1 and 2.

  FIG. 11 shows the evaluation results in the coating apparatus 4 of Example 4. As shown in FIG. 11, the coating film thickness (flow rate of the coating liquid discharged to the web 14) from the start of coating instantaneously becomes a desired film thickness (flow rate). The length of the loss is 0.2 m, which is further smaller than that of the third embodiment, and is the smallest of the first to fourth embodiments.

FIG. 12 shows a list comparing the above evaluation results from the viewpoints of apparatus cost, film thickness shape, and loss length. In addition, a film thickness shape is a shape represented as a change in the film thickness of the coating film at the start of coating in FIGS.
As shown in FIG. 12, since the first to fourth embodiments have no piping 41 or waste liquid reservoir 42 for disposal from the coating liquid recovery mechanism 24 as in the comparative example, the cost of the apparatus is reduced. Can be reduced. In addition, the film thickness shape was better in Example 2 than in Example 1, and the results in Examples 3 and 4 were better than in Example 2. Moreover, the length of loss was smaller in the third embodiment than in the first and second embodiments, and further, the fourth embodiment was smaller than the third embodiment.

  As described above, according to the present invention, since the coating liquid recovery mechanism 24 discharges the coating liquid at the start of coating and supplies it to the die 10, it is supplied from the coating liquid supply tank 16 to the die 10 at the start of coating. To compensate for the lack of coating liquid. Therefore, a coating liquid having a desired flow rate can be supplied to the die 10 at the start of coating. Therefore, a desired coating thickness can be realized at the start of coating.

  Further, since the control unit 26 controls the flow rate of the coating liquid discharged from the coating liquid supply tank 16 and the flow rate of the coating liquid discharged from the coating liquid recovery mechanism 24 at the start of coating, the coating process is started more reliably. Sometimes a desired flow rate of coating liquid can be supplied to the die 10. Therefore, a desired coating thickness can be realized more reliably at the start of coating.

  It should be noted that the above-described embodiment is merely an example and does not limit the present invention in any way, and various improvements and modifications can be made without departing from the scope of the invention.

1-4 coating apparatus 10 die 12 backup roll 14 web 16 coating liquid supply tank 18 pump 20 flow meter 22 shutoff valve 24 coating liquid recovery mechanism 26 control unit 30 first pipe 32 second pipe 34 discharge port 36 branch point 38 Flow meter 40 Pressure gauge 41 Piping 42 Waste liquid reservoir 44 Check valve 46 Check valve 50 Coating device

Claims (6)

A coating liquid supply tank for storing the coating liquid; a die for discharging the coating liquid supplied from the coating liquid supply tank; and a coating liquid recovery mechanism for recovering the coating liquid from the die at the end of coating. In coating equipment,
The coating liquid recovery mechanism stores the recovered coating liquid, discharges the coating liquid at the start of coating, and supplies it to the die.
The tank discharge flow rate, which is the flow rate of the coating solution discharged from the coating solution supply tank, and the coating solution recovery mechanism so that the flow rate of the coating solution supplied to the die becomes a desired flow rate at the start of coating. A control unit that controls a mechanism discharge flow rate that is a flow rate of the coating liquid discharged from
A coating device characterized by In the coating apparatus of Claim 1 ,
Tank flow rate measuring means for measuring the tank discharge flow rate,
The controller controls the tank discharge flow rate and the mechanism discharge flow rate based on the tank discharge flow rate measured by the tank flow rate measuring means at the start of coating;
A coating device characterized by In the coating apparatus of Claim 1 ,
Tank flow rate measuring means for measuring the tank discharge flow rate,
A mechanism flow rate measuring means for measuring the mechanism discharge flow rate,
The controller is configured such that, at the start of coating, the sum of the tank discharge flow rate measured by the tank flow rate measurement unit and the mechanism discharge flow rate measured by the mechanism flow rate measurement unit is a desired flow rate of the coating liquid. Controlling the tank discharge flow rate and the mechanism discharge flow rate,
A coating device characterized by In the coating apparatus of Claim 1 ,
Having a die flow rate measuring means for measuring a die supply flow rate which is a flow rate of the coating liquid supplied to the die;
The control unit controls the tank discharge flow rate and the mechanism discharge flow rate based on the die supply flow rate measured by the die flow rate measurement means at the start of coating;
A coating device characterized by In the coating device of Claim 4 ,
The die flow measuring means is a pressure gauge for measuring the pressure of the coating liquid;
A coating device characterized by Using a coating liquid supply tank for storing a coating liquid, a die for discharging the coating liquid supplied from the coating liquid supply tank, and a coating liquid recovery mechanism for recovering the coating liquid from the die at the end of coating In the coating method to
The coating liquid collected and stored in the coating liquid recovery mechanism is discharged at the start of coating and supplied to the die,
The tank discharge flow rate, which is the flow rate of the coating solution discharged from the coating solution supply tank, and the coating solution recovery mechanism so that the flow rate of the coating solution supplied to the die becomes a desired flow rate at the start of coating. Controlling the mechanism discharge flow rate which is the flow rate of the coating liquid discharged from the control unit,
A coating method characterized by

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