JP5114037B2 - Coating apparatus and coating method - Google Patents

Description

  The present invention relates to a coating apparatus and a coating method, and in particular, forms a photographic photosensitive emulsifier, a magnetic liquid, a viewing angle improving film, a solution for forming an antireflection film, a pigment liquid for a color filter, and a surface protective film. The present invention relates to a coating apparatus and a coating method for coating a coating solution such as a solution for a coating on a support such as a plastic film, paper, or metal foil.

  A die coating method is known as a method for applying a coating solution to the surface of a moving support (such as a web). In recent years, with the improvement of the performance of a film formed by a die coating method, a technique for forming a highly accurate laminated film in a region where the lubricant film thickness is thinner than 20 μm is required. . In order to form such a thin film uniformly, accuracy in the coating apparatus, in particular, the clearance between the tip lip and the web is very important.

This clearance is strongly influenced not only by the environmental temperature but also in the production of the coating apparatus, and it is necessary to make it uniform over the entire width of the coated web. In Patent Document 1 and Patent Document 2, a coating die and a base for fixing the coating die are connected by a plurality of push bolts and pull bolts, and by adjusting these push bolts and pull bolts, the tip lip and the web A method for adjusting the clearance is disclosed.
JP-A-6-142588 JP 2005-270877 A

  However, in the inventions disclosed in Patent Document 1 and Patent Document 2, the clearance between the tip lip and the web can be adjusted. However, since the adjustment is made by the push bolt and the pull bolt, the bolt is generally free of play. Therefore, it is difficult to make an adjustment at an accurate position, and the reproducibility of the adjustment is poor. Therefore, the adjustment by the bolt is repeated until accidental success. In addition, such adjustment using a bolt causes problems such as a problem that the bolt is loosened during application and the clearance changes during application while the application liquid is not uniformly applied. There are many practical problems such as the problem of damaging.

  The present invention has been made in view of the above circumstances, and provides a coating apparatus and a coating method capable of easily adjusting the position of the clearance and having little change in the clearance in the coating process.

  The invention according to claim 1 is a coating apparatus for applying a coating liquid from a tip lip of a coating die fixed to a gantry on a moving web, and joining a joint surface of the gantry to be joined to the coating die. In the region, a plurality of shims having holes or notches for penetrating bolts for connecting the coating die and the gantry are disposed, and the thickness of each of the disposed shims is adjusted, thereby coating A coating apparatus that adjusts the straightness of a tip lip of a die.

  The invention according to claim 2 is the coating apparatus according to claim 1, wherein the joining region is convex in the direction of the coating die on the joining surface of the gantry.

  The invention according to claim 3 is characterized in that the width of the shim in a direction perpendicular to the moving direction of the web is 1.2 to 7 times the bolt diameter. It is a coating device.

  In the invention according to claim 4, the number of shims arranged on the joint surface of the gantry is four or more, and the total width in the direction perpendicular to the web movement direction of the shim used is that of the gantry. The coating apparatus according to any one of claims 1 to 3, wherein the coating apparatus has a half or less of a total in a width direction in a direction perpendicular to the web moving direction of the joining surface.

  In the invention according to claim 5, the pedestal includes a plurality of columns formed in a direction from the coating die to a fixing table for fixing the gantry, and all the joining regions are located on the ends of the columns. The coating apparatus according to claim 1, wherein the coating apparatus is formed in a region to be

Invention according to claim 6, all surfaces in the region serving as the other end of said post, or, all surfaces except for both ends, to claim 5, wherein the in close contact with the fixing base It is a coating device of description .

  A seventh aspect of the present invention is the coating apparatus according to any one of the first to sixth aspects, wherein the shim is made of SUS steel.

  According to an eighth aspect of the present invention, the backup roller around which the web disposed close to the tip lip of the coating die is rotated, and the web is moved by the rotation of the backup roller. 8. A coating method, wherein a coating liquid is supplied from a tip lip of the coating apparatus according to any one of 1 to 7.

  As described above, according to the coating apparatus and the coating method of the present invention, the clearance can be easily adjusted, and since the change in the clearance in the coating process is small, the coating liquid can be stably and uniformly applied on the web. can do.

[Coating equipment]
An embodiment of a coating apparatus according to the present invention will be described with reference to FIG.

  FIG. 1 is a cross-sectional view cut perpendicularly to the web width direction of the coating apparatus in the present embodiment, and FIG. 2 is a perspective view of the coating apparatus in the present embodiment.

  In the coating apparatus according to the present embodiment, a web 15 that continuously runs is wound around a backup roller 14, and the coating die 12 is disposed close to the backup roller 14, and the coating liquid 16 is applied from the coating die 12. It is configured to be applied on the web 15.

  The coating die 12 is joined to the gantry 11 directly or via a shim 13 made of SUS steel. A hole or notch for fixing the coating die 12 to the gantry 11 is formed in the center of the shim 13, and a screw hole for fixing the gantry 11 is formed in the coating die 12. The coating die 12 is fixed to the gantry 11 with bolts 22 through the holes or notches. Further, the gantry 11 is fixed to the fixed base 23. In the present embodiment, the shim 13 made of SUS steel is used. However, the material is not particularly limited as long as it is a material with little change with time and a material having high rigidity.

  In order to uniformly apply the coating liquid 16 to the web 15, it is desirable that the distance between the backup roller 14 and the tip lip 12a of the coating die 12, that is, the clearance is uniform as described above. For this reason, a plurality of shims 13 are inserted between the gantry 11 and the coating die 12, and the straightness of the tip of the tip lip 12a of the coating die 12 is adjusted by changing the thickness of each of the inserted shims 13, thereby providing a backup. Adjustment is made so that the distance between the roller 14 and the tip lip 12a of the coating die 12 is uniform. This will be specifically described with reference to FIGS. FIG. 3 is a cross-sectional view of the coating apparatus according to the present embodiment cut in parallel to the web width direction, and FIG. 4 is an enlarged view of this. As shown in FIG. 3, the coating die 12 and the gantry 11 are joined via a plurality of shims 13. In order to adjust the straightness of the tip lip 12a of the coating die 12, adjustment is performed by inserting different shim 13 thicknesses. The position where each shim 13 is installed is a position corresponding to the end face on the application die 12 side of the column 21 for securing the strength provided in the gantry 11. Specifically, at the end face of the column 21 for securing the strength of the mount 11 provided between the fixing table 23 for fixing the mount 11 and the coating die 12, the end of the column 21 is fixed. A convex surface for improving the reproducibility of the contact is formed only in the region, and the coating die 12 is fixed to the gantry 11 via the shim 13 in this region. Since the coating die 12 is fixed on the end of the column 21 of the gantry 11, the gantry 11 is not deformed by the weight of the coating die 12, and the straightness of the tip lip 12 a of the coating die 12 is stably stabilized. It can be raised.

  On the other hand, as shown in FIG. 3, the surface of the other end of the column 21 of the gantry 11 is in contact with the surface of the fixed table 23 except for the columns 21 at both ends, thereby forming a contact surface 25. All the forces exerted on the surface of the fixed base 23 through the column 21 of the base 11 are all applied. Accordingly, deformation of the gantry 11 due to the weight of the coating die 12 is extremely small, and the straightness of the tip lip 12a of the coating die 12 does not change by configuring the fixing base 23 with a material that does not deform. In the present embodiment, the gantry 11 and the fixing base 23 are fixed by four bolts in order to prevent movement due to vibration or the like. Note that all the surfaces of the other end of the column 21 of the gantry 11 may be brought into contact with the surface of the fixed base 23.

  With the above configuration, once adjustment by the shim 13 is performed, it can be used as it is for a long time.

  As a result of the study by the inventors, the width in the width direction of the coating die 12 of the column 21 of the gantry 11 (the width in the web width direction) is 1.4 times or more of the nominal diameter of the bolt and is 20 [mm] or more. , 100 [mm] or less is desirable. This is because in order not to deform the gantry 11, it is necessary to have a width of 1.4 times the nominal diameter of the bolt and 20 mm or more. In addition, when the whole base 11 is formed in a bulk shape without forming the column 21 on the base 11, the weight of the base 11 becomes very heavy, and it becomes difficult to perform movement, fine adjustment and the like. Since the frame 11 may be deformed by its own weight, the structure is not suitable. Therefore, the width of the column is preferably 100 [mm] or less.

  Furthermore, in order to adjust the straightness of the tip lip 12a of the coating die 12 by arranging the shim 13 on the end surface of the column 21 on the coating die 12 side, the number of shims 13 to be installed is four or more. . This is because if the number of shims is three or less, the straightness of the tip lip 12a by the shim cannot be finely adjusted.

  In addition, although the notch 26 is usually provided in the gantry 11, the column 21 of the gantry 11 is supported by a structure that penetrates from the coating die 12 to the fixing table 23, so that a surface other than the contact surface 25 at the end of the column 21. The structure formed in is desirable. There is also a structure of the gantry 11 in which the notch 26 is not formed. In this case, the fixed pedestal 23 and the gantry 11 form the contact surface 25 in a wide area.

[Coating method]
Next, the coating method according to the present invention will be described with reference to FIG. The coating method according to the present invention uses the above-described coating apparatus according to the present invention. Specifically, the coating liquid 16 supplied to the coating die 12 is supplied to the tip lip 12 a of the coating die 12 through a slit formed in the coating die 12. The tip lip 12a of the coating die 12 is arranged with a predetermined clearance in the vicinity of the continuously running web 15 by the backup roller 14, and the coating liquid 16 is placed between the tip lip 12a of the coating die 12 and the web 15. In (1), it is applied to the web 15 while forming a kind of bead. The clearance at the time of coating is desirably 3 [μm] or less over the entire width of the web 15, and the straightness of the tip lip 12a of the coating die 12 is adjusted by the shim 13 so as to be within this range. Yes.

  In addition, the range of 0.1-1000 [p] (0.01-100 [Pa * s]) is preferable, and, as for the viscosity of the coating liquid 16 apply | coated, More preferably, it is 1-100 [P] (0. 1 to 10 [Pa · s]) is preferable.

  The web 15 to which the coating liquid 16 is applied is subjected to a drying process and a calendering process, and then is wound into a roll shape and cured by heating or UV irradiation while maintaining the roll shape. The cured web 15 is cut into a predetermined width to be a product such as a photographic material, a magnetic recording medium, a PS plate, or an optical functional film.

  In addition, liquid crystal, a magnetic material, a photographic photosensitive agent, an organic EL, a dye material, an adhesive material, a conductive material, an insulating material, and the like can be applied by the coating apparatus and the coating method according to the present invention.

  As described above, the coating apparatus and the coating method according to the present invention have been described in detail. However, the present invention is not limited to the above examples, and various improvements and modifications can be made without departing from the gist of the present invention. Is possible.

  Next, test results comparing the examples of the present invention and comparative examples will be described.

  (1) The conditions of the coating die and the gantry of the example were as follows.

(Coating die)
As the coating die, a die having a total length of 1400 mm and an effective coating width of 1250 mm was used.

(Frame)
A base having a total length of 1200 mm was used as a base, and a base with a changed nominal diameter and number of retaining bolts, number of columns and number, etc. was prepared, a coating die was mounted, and the straightness of the lip tip was measured.

  (2) On the other hand, the conditions of the coating die and the gantry of the comparative example were as follows.

(Coating die)
As in the example, a die having a total length of 1400 mm and an effective coating width of 1250 mm was used as the coating die.

(Frame)
A gantry similar to the example was created as a gantry. However, the application die was fixed and the straightness was adjusted using a push-pull bolt without using a shim.

  (3) The straightness was measured as follows.

(Measurement of straightness)
The straightness was determined by measuring the distance between the die lip tip and the backup roll with a thickness gauge with the coating die facing the backup roll, and calculating the maximum-minimum value of the distance.

[Linearity]
The ratio of the amount of movement of the lip tip to the amount of adjustment of the shim or push-pull bolt was defined as linearity. For example, when the thicknesses of the shims A and B are tA and tB, and the movement amounts with respect to the initial value of the lip tip at that time are dA and dB, linearity = (dB−dA) / (tB−tA) × 100 (%) Defined by

〔Test results〕
The test results of the above examples and comparative examples are shown in FIG. In the evaluation, ◎ indicates that both linearity and straightness are good, △ indicates that either linearity or straightness is good, and ○ indicates that both are bad.

  As can be seen from FIG. 1, Examples 1 to 6 of the present invention in which the straightness is adjusted by shims have a linearity of 65% or more and a maximum distance between the die lip tip and the backup roll of 5.2 μm, which is good. Linearity and straightness could be obtained. Especially in Examples 1 to 6, the width in the direction perpendicular to the moving direction of the shim web is 1.2 to 7 times the bolt diameter (“Magnification” in Chart 1), and the number of columns of the gantry is Examples 1, 3, and 5 satisfying the condition of 4 or more were good results with ◎.

  On the other hand, in the case of the comparative example in which the straightness is adjusted by the push bolt, the linearity is 55%, which is smaller than that of Example 6, the distance between the die lip tip and the backup roll is as large as 12.0 μm, and the linearity and the straightness. Both were bad results.

Sectional drawing of the direction perpendicular | vertical to the web of the coating device which concerns on embodiment of this invention The perspective view of the coating device which concerns on embodiment of this invention Sectional drawing of the direction parallel to the web of the coating device which concerns on embodiment of this invention The enlarged view of the cross section of the direction parallel to the web of the coating device which concerns on embodiment of this invention Sectional drawing of the direction parallel to the web of the coating device which concerns on another embodiment of this invention. Table showing test results of Examples and Comparative Examples of the present invention

Explanation of symbols

  DESCRIPTION OF SYMBOLS 11 ... Base, 12 ... Coating die, 12a ... Tip lip, 13 ... Shim, 14 ... Backup roller, 15 ... Web, 16 ... Coating liquid, 21 ... Column, 22 ... Bolt, 23 ... Fixing base, 25 ... Contact surface, 26 ... Notch

Claims (8)

In a coating apparatus that applies a coating liquid from the tip lip of a coating die fixed to a gantry on a moving web,
A plurality of shims having holes or notches for penetrating bolts for connecting the coating die and the gantry are disposed in the joining region of the joining surface of the gantry to be joined to the coating die,
The coating apparatus characterized by adjusting the straightness of the tip lip of the coating die by adjusting the thickness of each of the arranged shims.   The coating apparatus according to claim 1, wherein the joining region is convex in the direction of the coating die on the joining surface of the gantry.   The coating apparatus according to claim 1 or 2, wherein the shim has a width in a direction perpendicular to a moving direction of the web of 1.2 to 7 times the bolt diameter.   There are four or more shims arranged on the joining surface of the gantry, and the total width in the direction perpendicular to the web movement direction of the shim used is perpendicular to the web movement direction of the joining surface of the gantry. The coating apparatus according to any one of claims 1 to 3, wherein the coating apparatus is half or less of a total of the width direction in the direction.   The pedestal has a plurality of columns formed in a direction from the coating die toward a fixed pedestal for fixing the pedestal, and all of the joining regions are formed in regions on the ends of the columns. The coating apparatus according to claim 1, wherein: The coating apparatus according to claim 5 , wherein all of the surfaces in the region serving as the other end of the column or all surfaces except both ends are in close contact with the fixing base.   The coating apparatus according to claim 1, wherein the shim is made of SUS steel. Rotating a backup roller around which a web arranged close to the tip lip of the coating die is wound,
A coating method, comprising: supplying a coating liquid from a tip lip of a coating apparatus according to any one of claims 1 to 7 onto the web that is moved by the rotation of the backup roller.

Images