JP2020131082A - Coating device - Google Patents

Abstract

To provide a coating device capable of accurately performing positioning of a plurality of bodies of stacked dies.SOLUTION: A coating device comprises a first adjusting bolt 42 that is provided in a base 20 of a first body 22 and that adjusts the height of a middle body 24, a vertical adjustment member 50 that is provided in the rear of the base 20, and a second adjusting bolt 54 that is provided in the vertical adjustment member 50 and that adjusts the height of a second body 26.SELECTED DRAWING: Figure 8

Description

The present invention relates to a coating device.

Conventionally, a laminated die has been proposed in which different coating liquids are laminated and coated with one die. This laminated die has a triangularly pointed tip and is provided with two discharge ports side by side. Different coating liquids are discharged from each, and different coating liquids are laminated and applied to the web transported by the backup roll. To work.

Japanese Unexamined Patent Publication No. 10-337519 Japanese Patent No. 3777404

In the laminated die as described above, there are a plurality of main bodies constituting the die, and a liquid passage for discharging the coating liquid is provided between the main bodies. Therefore, there is a problem that the position of the discharge port is displaced and the desired coating cannot be performed unless the positioning of each main body is performed accurately.

Therefore, in view of the above problems, it is an object of the present invention to provide a coating apparatus capable of accurately positioning a plurality of main bodies in a laminated die.

In the above-mentioned laminated die, shims are arranged between the main bodies constituting the die to adjust the coating width of the coating liquid. Therefore, there is a problem that the desired coating cannot be performed unless the position of the shim is accurately attached between the main bodies.

Therefore, in view of the above problems, it is an object of the present invention to provide a coating device capable of accurately adjusting the position of shims provided between the main bodies of the die.

In the present invention, a backup roll in which the web travels on the lower peripheral surface in the front-rear direction and a backup roll arranged below the backup roll are coated by laminating a first coating liquid and a second coating liquid on the web. In a coating apparatus having a laminated die, the laminated die has a base portion extending in the left-right direction, a first main body integrally erected from the front portion of an upper surface of the base portion, and the above-mentioned above the base portion. An intermediate main body combined with the rear surface of the first main body to form a triangular vertical cross section, a second main body combined with the rear surface of the intermediate main body, and the first coating liquid provided on the rear surface of the first main body. The first liquid reservoir of the first liquid reservoir, the first liquid passage of the first coating liquid between the first main body and the intermediate main body from the first liquid reservoir portion, and a slit at the upper end of the first liquid passage. A first discharge port of the first coating liquid in a shape, a first shim sandwiched between the first main body and the intermediate main body, and a second coating liquid provided on the front surface of the second main body. A slit-shaped two-liquid reservoir, a second liquid passage of the second coating liquid between the intermediate main body and the second main body from the second liquid reservoir, and an upper end of the second liquid passage. A second discharge port for the second coating liquid, a second shim sandwiched between the intermediate main body and the second main body, and a first adjusting bolt provided at the base portion for adjusting the height of the intermediate main body. A coating device including a vertical adjusting member provided at the rear portion of the base portion and a second adjusting bolt provided on the vertical adjusting member for adjusting the height of the second main body.

According to the present invention, the positions of the intermediate main body and the second main body can be accurately adjusted with respect to the first main body.

It is a side view of the coating apparatus which shows Embodiment 1 of this invention. It is a front view of a coating device. It is an exploded perspective view of a laminated die. It is a vertical sectional view of the central part of a laminated die. It is an enlarged vertical sectional view of the cutting edge portion of a laminated die. It is a vertical cross-sectional view of the part which fixes the 1st main body and the intermediate main body with the 1st fastening bolt. It is a vertical sectional view of the part of the 2nd fastening bolt which fixes a 2nd main body and an intermediate main body. It is a vertical cross-sectional view of the laminated die in the 1st adjustment bolt which supports an intermediate die. It is a vertical cross-sectional view of the part which measures the height of an intermediate body. It is a right side portion of the cross-sectional view taken along the line AA in FIG. It is a longitudinal view of the laminated die in the 2nd shim adjustment bolt which supports the 2nd main body. It is a vertical cross-sectional view of the partially laminated die for measuring the height of the 2nd main body. It is the right side part of the rear view of the laminated die. It is a vertical cross-sectional view of the laminated die of the portion supporting the 1st shim and the 2nd shim. It is an enlarged perspective view of the part supporting the 1st shim. FIG. 14 is a right side portion of a sectional view taken along line BB in FIG. It is an enlarged perspective view of the part supporting the 2nd shim. It is an enlarged perspective view of the lateral adjustment member of the 2nd shim. It is a right side portion of the cross-sectional view taken along the line CC in FIG.

Hereinafter, the web W coating device 10 according to the embodiment of the present invention will be described with reference to FIGS. 1 to 19. Examples of the long web W include a film, a metal foil, a metal mesh, paper, and a cloth. Further, the coating device 10 of the present embodiment coats the web W by laminating different first coating liquids and second coating liquids. Here, the different coating liquids are not coating liquids having completely different components from each other, but also include coating liquids having the same components but different viscosities.

(1) Coating device 10
The configuration of the coating device 10 will be described with reference to FIGS. 1 and 2. As shown in FIG. 1, the coating device 10 includes a backup roll 12 that rotates at a predetermined rotation speed, a laminated die 14 that is arranged below the backup roll 12, and a bend device that is arranged below the laminated die 14. It has 16. The rotation shaft 18 of the backup roll 12 is arranged in the horizontal direction, and the web W travels forward on the lower peripheral surface of the backup roll 12.

(2) Laminated die 14
Next, the structure of the laminated die 14 will be described with reference to FIGS. 1 to 3. The base 20 of the laminated die 14 is a rectangular parallelepiped and extends in the width direction of the web W, that is, in the left-right direction. The first main body 22 is integrally erected from the front portion of the upper surface of the base portion 20. A first shim 70 and an intermediate main body 24 are arranged behind the first main body 22, and a second shim 80 and a second main body 26 are arranged behind the intermediate main body 24. Hereinafter, each member will be described in order.

(2-1) First main body 22
As shown in FIG. 4, the front surface of the first main body 22 is a vertical surface, and the upper surface is formed with a first inclined surface 30 that is inclined downward toward the front. As shown in FIG. 5, the first coating cutting edge 34 extends in the left-right direction at the upper end of the first inclined surface 30, that is, the upper end of the rear surface of the first main body 22. The upper surface of the first coating cutting edge 34 has a flat shape. As shown in FIGS. 3 and 4, the rear surface of the first main body 22 is a vertical surface, and the first liquid reservoir 32 extends in the left-right direction. A first supply port 36 to which the first coating liquid is supplied penetrates horizontally through the central portion of the first liquid reservoir 32 in the left-right direction. As shown in FIGS. 1 to 3, a pair of left and right shaft boards 28, 28 are attached to the pair of left and right side surfaces of the first main body 22 with bolts, and the pair of left and right support shafts 38, from these shaft boards 28, 28, 38 protrudes in the left-right direction. Further, the first lateral positioning portion 29 projects from the shaft substrate 28 toward the intermediate main body 24.

(2-2) Intermediate body 24
As shown in FIG. 4, the intermediate main body 24 is arranged behind the first main body 22 with the first shim 70 interposed therebetween, and the vertical cross-sectional shape is triangular as shown in FIG. 4, and becomes thinner toward the upper part. ing. As shown in FIG. 5, the upper end portion of the intermediate main body 24 is formed with an intermediate coating cutting edge 40 extending in the left-right direction. The upper surface of the intermediate coating cutting edge 40 has a flat shape. As shown in FIG. 6, the intermediate main body 24 is arranged above the rear portion of the base portion 20 integrated with the first main body 22, and is fixed by a plurality of first fastening bolts 90.

As shown in FIGS. 13 and 18, second lateral positioning portions 44 of a pair of left and right rectangular parallelepipeds are attached to both side surfaces of the intermediate main body 24 with bolts 194, and the rear portion of the second lateral positioning portions 44 is the intermediate main body. It protrudes rearward from 24.

As shown in FIG. 4, a space 27 is formed between the lower surface of the intermediate main body 24 and the upper surface of the rear portion of the base portion 20.

As shown in FIGS. 8 and 10, a plurality of first fixing pins 45 are vertically fitted on the lower surface of the intermediate main body 24 at predetermined intervals. Then, in the rear portion of the base 20 of the first main body 22, the first adjusting screw holes 41 penetrate in the vertical direction at predetermined intervals along the left-right direction. The first adjusting bolt 42 penetrates the first adjusting screw hole 41 in the vertical direction, and the upper end thereof hits the first fixing pin 45 on the lower surface of the intermediate main body 24 to support the intermediate main body 24.

As shown in FIG. 10, a first lead-in screw hole 43 penetrates in the vertical direction at a position near the first adjusting screw hole 41 at the rear portion of the base portion 20. The first pull-in bolt 46 penetrates the first pull-in screw hole 43, and the upper portion thereof is screwed into the lower surface of the intermediate main body 24. By tightening the first pull-in bolt 46, the intermediate main body 24 is pulled toward the base 20 side.

As shown in FIGS. 9 and 10, a first mounting piece 47 is mounted near the first adjusting screw hole 41 on the lower surface of the intermediate main body 24 and extends rearward. A first height indicator 48 is vertically fixed to the rear surface of the base 20 corresponding to the position of the first attachment piece 47, and the measuring unit 49 of the first height indicator 48 hits the first attachment piece 47. I'm in contact. When the intermediate main body 24 is moved up and down with respect to the base 20 by the first adjusting bolt 42, the first mounting piece 47 moves up and down at the same time. Therefore, the first height indicator 48 is the height of the intermediate main body 24 with respect to the first main body 22. Can be measured accurately.

(2-3) Second main body 26
As shown in FIGS. 3 and 4, the second main body 26 is arranged behind the intermediate main body 24 with the second shim 80 interposed therebetween. The second main body 26 is a rectangular parallelepiped extending in the left-right direction, and a second inclined surface 60 is formed from the front upper end portion to the rear upper end portion thereof. As shown in FIG. 5, a second coating cutting edge 64 is provided in the left-right direction at the upper end portion of the second main body 26, that is, the upper end portion of the second inclined surface 60. The upper surface of the second coating cutting edge 64 is flat. The front surface of the second main body 26 is a flat surface, which is combined with the rear surface of the intermediate main body 24 with the second shim 80 sandwiched between them, and is fixed by the second fastening bolt 100. Further, as shown in FIGS. 3 and 4, a second liquid reservoir 62 is formed in the left-right direction on the front surface of the second main body 26. A second supply port 66 for supplying the second coating liquid penetrates in the center of the second liquid storage portion 62 extending in the left-right direction substantially in the front-rear direction.

As shown in FIGS. 11 and 13, vertical adjusting members 50 are provided on the rear surface of the base 20 at predetermined intervals. The vertical adjusting member 50 includes a vertical portion 50a and a horizontal portion 50b protruding rearward from the upper end portion of the vertical portion 50a. The vertical portion 50a is fixed to the rear surface of the base 20 by a bolt 51.

As shown in FIGS. 11 and 13, a second fixing pin 52 is vertically provided on the lower surface of the second main body 26 at a position corresponding to the vertical adjusting member 50 described above.

As shown in FIGS. 11 and 13, a second adjusting screw hole 53 penetrates through the horizontal portion 50b of the vertical adjusting member 50, and a second adjusting bolt 54 is screwed into the second adjusting bolt 54. The upper end is in contact with the second fixing pin 52. As shown in FIG. 13, a second lead-in screw hole 55 penetrates through the horizontal portion 50b of the vertical adjustment member 50. A second pull-in bolt 56 is screwed into the second pull-in screw hole 55 from below, and the upper portion thereof is screwed into the lower surface of the second main body 26. The position of the second main body 26 in the height direction is adjusted by the second adjusting bolt 54, and the second main body 26 is fixed by the second pull-in bolt 56 so as not to rise.

As shown in FIGS. 12 and 13, a measuring pin 57 is attached to the lower surface of the second main body 26. Further, a second height indicator 58 is attached to the base 20 corresponding to the measurement pin 57 in the vertical direction. The measuring unit 59 of the second height indicator 58 is in contact with the measuring pin 57. Then, the height of the second main body 26 with respect to the first main body 22 can be measured by the second height display meter 58.

(2-4) 1st shim 70
As shown in FIGS. 3 and 14 to 16, the plate-shaped first shim 70 is arranged between the rear surface of the first main body 22 and the front surface of the intermediate main body 24. The first shim 70 is arranged around the first liquid reservoir 32, and is arranged on the left side 72 arranged on the left side of the first liquid reservoir 32, the right side 74 arranged on the right side, and the lower part. It has a shape in which the lower side portion 76 is integrated. The shim holes 78 penetrate through the first shim 70 at predetermined intervals. Further, a horizontally long hole 144 long in the lateral direction is opened at the lower end of the lower portion 76 of the first shim 70.

As shown in FIGS. 14 and 16, reinforcing plates 130 are fixed to the lower surface of the base 20 of the first main body 22 by bolts 132 at predetermined intervals. A screw hole 134 is opened in the reinforcing plate 130. Further, the first shim adjusting hole 136 penetrates the base portion 20 corresponding to the screw hole 134 in the vertical direction.

A nut 148 is fixed to the lower surface of the reinforcing plate 130, and a first shim adjusting bolt 138 is screwed into the screw hole 134 from below. The first shim adjusting bolt 138 extends halfway through the first shim adjusting hole 136. A first shim vertical adjusting member 140 is placed on the first shim adjusting bolt 138. As shown in FIG. 14, the first shim vertical adjusting member 140 has a cylindrical shape and is inserted into the first shim adjusting hole 136, and a notch 142 is provided at the rear portion of the upper end portion thereof. On the other hand, a horizontally long hole 144 is opened at the lower end of the lower portion 76 of the first shim 70 corresponding to the notch portion 142. As shown in FIG. 14, the lower portion 76 of the first shim 70 is arranged in the space portion formed by the notch portion 142, and the first shim pin 146 is inserted into the horizontally elongated hole 144 to adjust the first shim vertically. It is fixed to the member 140. By rotating the first shim adjusting bolt 138 to move it up and down, the first shim vertical adjusting member 140 moves up and down, and the height of the first shim 70 can be adjusted.

(2-5) Second shim 80
As shown in FIGS. 3 and 14, the second shim 80 is arranged between the rear surface of the intermediate main body 24 and the front surface of the second main body 26. The second shim 80 is arranged around the second liquid reservoir 62, and the left side portion 82 arranged on the left side of the second liquid reservoir 62, the right side portion 84 arranged on the right side, and the lower side. The shape is such that the arranged lower side portion 86 is integrated. The second shim 80 is opened with shim holes 88 at predetermined intervals. A horizontally long hole 164 long in the lateral direction is opened at the lower end of the lower portion 86 of the second shim 80.

As shown in FIGS. 14, 17, and 19, plate-shaped second shim vertical adjusting members 150 are attached to the lower surface of the intermediate main body 24 at predetermined intervals. As shown in FIG. 14, the second shim vertical adjusting member 150 includes an upper portion 150a in contact with the lower surface of the intermediate main body 24, an inclined portion 150b extending downward from the upper portion 150a, and a lower portion 150c. The upper portion 150a is fixed to the lower surface of the intermediate main body 24 by a bolt 152. Further, a hole 154 is opened in the lower portion 150c. A nut 156 is fixed to the lower surface of the hole 154. The second shim adjusting bolt 158 penetrates the nut 156 and the hole 154 from below.

As shown in FIGS. 14 and 17, the plate-shaped inclined portion 150b is parallel to the inclined direction of the second shim 80, and the plate-shaped sliding member 160 is arranged on the inclined portion 150b. A flange portion 162 is provided at the lower portion of the slide member 160, and a second shim adjusting bolt 158 is rotatably fixed to the flange portion 162. By rotating the second shim adjusting bolt 158, the slide member 160 slides in the vertical direction along the inclined portion 150b. Further, the second shim pin 166 is inserted into the horizontally elongated hole 164 and the slide member 160 of the lower portion 86 of the second shim 80 and fixed to the slide member 160. As a result, by rotating the second shim adjusting bolt 158, the second shim 80 moves up and down together with the slide member 160.

As shown in FIGS. 18 and 19, the projecting pieces 170 project outward from the left side portion 82 and the right side portion 84 of the second shim 80, respectively. The pair of left and right projecting pieces 170 are provided with vertically elongated holes 172 that are long in the vertical direction. On the other hand, the lateral adjusting member 174 is provided on the first lateral positioning portion 29 protruding from the shaft substrate 28. As shown in FIG. 18, the lateral adjusting member 174 has a pedestal 176 fixed to the first lateral positioning portion 29 with a bolt 192. A flange portion 178 projects from the side end portion of the pedestal 176, and a screw hole is opened in the flange portion 178. A nut 182 is fixed to the outside of the flange portion 178 corresponding to the screw hole. A lateral shim adjusting bolt 184 penetrates the screw hole and the nut 182 in the lateral direction. On the other hand, as shown in FIG. 18, a plate-shaped slide member 186 is arranged on the rear surface of the pedestal 176. A vertically elongated hole 172 opened in the projecting piece 170 of the second shim 80 is located in the slide member 186, and the projecting piece 170 is fixed to the slide member 186 by a vertical pin 190. A flange portion 188 projects from the end portion of the slide member 186. The tip of the lateral shim adjusting bolt 184 penetrating the flange portion 178 is screwed into the flange portion 188. As a result, the slide member 186 moves laterally by rotating the lateral shim adjusting bolt 184, and the second shim 80 also moves laterally.

(2-6) Method of Fixing Laminated Die 14 A method of fixing the laminated die 14 will be described.

As shown in FIG. 6, the first main body 22, the first shim 70, and the intermediate main body 24 are integrally fixed by a plurality of first fastening bolts 90. The first fastening bolt 90 is provided in the first fastening hole 92 provided on both the left and right sides of the first main body 22, the shim hole 78 provided in the first shim 70, and the intermediate first fastening hole 94 provided in the intermediate main body 24. It is screwed.

As shown in FIG. 7, the second main body 26, the second shim 80, and the intermediate main body 24 are integrally fixed by a plurality of second fastening bolts 100. The second fastening bolt 100 is screwed into the second fastening hole 102 provided in the second main body 26, the shim hole 88 provided in the second shim 80, and the intermediate second fastening hole 104 provided in the intermediate main body 24. To.

(3) Bend device 16
Next, the relationship between the bend device 16 and the laminated die 14 will be described.

As shown in FIG. 2, the bend device 16 is a substantially rectangular parallelepiped provided below the laminated die 14, and a pair of left and right arm portions 110 and 110 are erected from both left and right side portions on the upper surface. On the other hand, since the support shaft 38 projects from both the left and right sides of the first main body 22, the arm 110 rotatably supports the support shaft 38.

As shown in FIG. 4, a vertical movement portion 112 is provided inside the bend device 16, and a cylindrical die pressing portion 114 is provided at the upper end portion of the vertical movement portion 112. The cotter included in the vertical movement portion 112 moves horizontally to move the die pressing portion 114 up and down.

(4) Positional Relationship between Backup Roll 12, Laminated Die 14, and Bend Device 16 The positional relationship between the backup roll 12, the laminated die 14, and the bend device 16 will be described.

As shown in FIG. 1, the front portion of the upper surface of the first coating cutting edge 34 of the first main body 22 of the laminated die 14 is located directly below the center O of the rotating shaft 18 (at a position intersecting the perpendicular line S from the center O). It is positioned. In this way, as shown in FIG. 5, the distance between the front portion of the upper surface of the first coating cutting edge 34 and the lower peripheral surface of the backup roll 12 is closest, and the coating pressure is applied most at this close position. It will be. Therefore, coating can be performed at the position where the coating pressure is highest. That is, the distance between the front portion of the upper surface of the first coating cutting edge 34 and the lower peripheral surface of the backup roll 12 becomes the coating interval, and the coating thickness is determined. In particular, as shown in FIG. 5, since the upper surface of the first coating cutting edge 34 and the upper surface of the second coating cutting edge 64 are set to the same height, the web W runs smoothly. Further, the distance between the rear portion of the upper surface of the second coating cutting edge 64 and the lower peripheral surface of the backup roll 12 is L1, and the distance between the front portion of the upper surface of the second coating cutting edge 64 and the lower peripheral surface of the backup roll 12 is L2. The distance between the rear part of the upper surface of the intermediate coating cutting edge 40 and the lower peripheral surface is L3, the distance between the front part of the upper surface of the intermediate coating cutting edge 40 and the lower peripheral surface is L4, and the distance between the upper surface and the lower peripheral surface of the intermediate coating cutting edge 40 is L4. Assuming that the distance between the surface and the lower peripheral surface is L5 and the distance between the front portion of the upper surface of the first coating cutting edge 34 and the lower peripheral surface is L6, L1> L2> L3> L4> L5> L6, and the web W is applied. The coating pressure gradually increases, and coating can be performed at the position where the coating pressure of L6 is the highest.

On the other hand, as shown in FIGS. 1 and 2, the upper end portion of the laminated die 14 is affected by the pressure of the first coating liquid and the second coating liquid discharged from the first discharge port 122 and the second discharge port 126. It curves downward toward the center in the left-right direction. In order to prevent this bending, the die pressing portion 114 of the bend device 16 presses the lower surface of the base portion 20 of the laminated die 14. In the present embodiment, the pressing position of the die pressing portion 114 is the center in the left-right direction and the position directly below the center O of the rotation shaft 18 of the backup roll 12 in the front-rear direction. The reason why the position just below the center O of the rotation shaft 18 of the backup roll 12 is pressed will be described. As described above, the distance between the front portion of the upper surface of the first coating cutting edge 34 corresponding to the position directly below the center O of the rotation shaft 18 of the backup roll 12 and the lower peripheral surface of the backup roll 12 is closest to this. The coating pressure is most applied at the closest position. Therefore, in the front-rear direction, bending is most likely to occur in this portion. Therefore, in the present embodiment, the position directly below the center O (the front portion of the upper surface of the first coating cutting edge 34) of the rotation shaft 18 of the backup roll 12 is pressed in the front-rear direction to prevent bending.

Further, when the base portion 20 and the first main body 22 are bent, the intermediate main body and the second main body fixed to the first main body 22 can also be bent at the same time.

(5) Operating State of Coating Device 10 The operating state of the coating device 10 will be described. In FIG. 1, the web W advances the lower peripheral surface of the backup roll 12 (runs from left to right in FIG. 1).

First, as shown in FIG. 4, the first coating liquid is supplied to the first liquid reservoir 32 from the first supply port 36. Further, the second coating liquid is supplied to the second liquid reservoir 62 from the second supply port 66.

Next, the second coating liquid is discharged from the second liquid reservoir 62 through the second liquid passage 124 and the second discharge port 126, and is coated on the advancing web W.

Next, the first coating liquid is discharged from the first liquid reservoir 32 through the first liquid passage 120 and from the first discharge port 122. Then, the first coating liquid is laminated and coated on the second coating liquid coated on the web W that advances further.

(6) Assembling Method of Laminated Die 14 Next, an assembling method of the laminated die 14 will be described.

First, as shown in FIG. 2, between the pair of left and right arm portions 110 and 110 erected from the upper surface of the bend device 16, the pair of left and right support shafts 38 and 38 projecting from the shaft substrate 28 of the first main body 22. To install.

Next, as shown in FIG. 6, the intermediate main body 24 is arranged with the first shim 70 sandwiched between the first main body 22. Then, the first main body 22, the first shim 70, and the intermediate main body 24 are integrally fixed by the plurality of first fastening bolts 90. As shown in FIG. 3, since the first lateral positioning portion 29 protrudes from the pair of left and right shaft boards 28 of the first main body 22, when the intermediate main body 24 is fixed to the first main body 22, the intermediate main body 24 becomes A pair of left and right first lateral positioning portions 29, 29 prevents lateral movement.

Next, as shown in FIG. 4, the second main body 26 is arranged with the second shim 80 sandwiched between the intermediate main body 24. Then, the second main body 26, the second shim 80, and the intermediate main body 24 are integrally fixed by the plurality of second fastening bolts 100. As a result, the first main body 22, the intermediate main body 24, and the second main body 26 are integrally fixed with the first shim 70 and the second shim 80 sandwiched between them.

Next, as shown in FIGS. 8 to 13, the first fastening bolt 90 and the second fastening bolt 100 are slightly loosened, and the first adjusting bolt 42 and the second adjusting bolt 54 are moved up and down to move the first coating cutting edge. 34, the intermediate coating cutting edge 40, and the second coating cutting edge 64 are adjusted so as to be on the same surface, that is, horizontally. At this time, the height of the intermediate main body 24 is measured and adjusted by the first height indicator 48, and the height of the second main body 26 is measured by the second height indicator 58 and adjusted. Do.

Next, as shown in FIGS. 14 to 16, the position of the first shim 70 is adjusted by rotating the first shim adjusting bolt 138. At this time, the upper ends of the left side portion 72 and the right side portion 74 of the first shim 70 are set slightly lower than the first coating cutting edge 34 and the intermediate coating cutting edge 40 (for example, 0.1 mm to 3 mm).

Next, the first fastening bolt 90 is tightened to completely fix the first main body 22 and the intermediate main body 24.

Next, as shown in FIGS. 14, 17, and 19, the height of the second shim 80 is adjusted by the second shim adjusting bolt 158. At this time, the upper ends of the left side portion 82 and the right side portion 84 of the second shim 80 are attached slightly lower than the intermediate coating cutting edge 40 and the second coating cutting edge 64 (for example, 0.1 mm to 3 mm). Since the vertically elongated hole 172 of the projecting piece 170 is long in the vertical direction, the second shim 80 can be moved up and down.

Next, as shown in FIGS. 14, 18, and 19, the lateral shim adjusting bolt 184 is rotated to adjust the lateral position of the second shim 80 with the position of the first shim 70. The positions of the left side portion 72 and the right side portion 74 of the first shim 70 are aligned with the positions of the left side portion 82 and the right side portion 84 of the second shim 80. Since the horizontally elongated hole 144 at the lower end of the second shim 80 is long in the lateral direction, the second shim 80 can be moved laterally.

Next, a pair of left and right second lateral positioning portions 44 are attached to both side portions of the intermediate main body 24, and the second main body 26 is fixed to the intermediate main body 24 so as not to shift in the lateral direction.

(7) Effect According to the present embodiment, the position of the intermediate main body 24 in the height direction with respect to the first main body 22 can be adjusted by the first adjusting bolt 42, and the intermediate main body 24 is upward with respect to the first main body 22. Even if a force for moving to float is applied, the intermediate main body 24 is completely fixed in the height direction with respect to the first main body 22 because it is pulled downward by the first pull-in bolt 46. Further, the height of the intermediate main body 24 with respect to the first main body 22 can be measured by the first height indicator 48.

Further, since the intermediate main body 24 is sandwiched by the first lateral positioning portions 29, 29 of the first main body 22, it does not shift in the lateral direction.

Further, the position of the second main body 26 in the height direction with respect to the intermediate main body 24 can be adjusted by the second adjusting bolt 54. Further, even if a force is applied to the intermediate main body 24 in a direction in which the second main body 26 floats, it is pulled downward by the second pull-in bolt 56, so that the height direction of the second main body 26 with respect to the intermediate main body 24 The position of is completely fixed. Further, the height of the second main body 26 with respect to the first main body 22 can be measured by the second height display meter 58.

Further, since the second main body 26 is sandwiched by a pair of left and right second horizontal positioning portions 44 provided on both side surfaces of the intermediate main body 24, the second main body 26 does not shift in the lateral direction.

Further, the position of the first shim 70 is fixed by the first main body 22 and the second main body 26, and the position in the height direction thereof can be adjusted by the first shim adjusting bolt 138. At that time, by setting the height of the upper end portion of the first shim 70 to be slightly lower than that of the first coating cutting edge 34 and the intermediate coating cutting edge 40, the swelling of both ends in the width direction in the coated portion of the web W is increased. Can be reduced.

Further, the height of the second shim 80 can be adjusted by the second shim adjusting bolt 158 with reference to the first shim 70. Further, at this time, by setting the height of the upper end portion of the second shim 80 to be slightly lower than that of the intermediate coating cutting edge 40 and the second coating cutting edge 64, the swelling of both ends in the width direction in the coated portion of the web W can be increased. Can be reduced.

Further, since the second shim 80 can be moved in the lateral direction by adjusting a pair of left and right horizontal shim adjusting bolts 184, the position of the second shim 80 can be matched with the position of the first shim 70 in the lateral direction, and the two-layer coating portion can be matched. Does not shift laterally.

(8) Modification example In the above embodiment, the second shim 80 is adjusted by the second shim adjusting bolt 158, but in addition to this, the lower end portion of the lower portion 86 of the second shim 80 can be measured. A height indicator may be further provided, and the height of the second shim 80 may be adjusted while looking at the height indicator.

Further, in the above embodiment, the lateral adjustment structure is provided for the second shim 80 sandwiched between the intermediate main body 24 and the second main body 26, but not limited to this, the first shim 70 also adjusts the lateral deviation. A possible lateral adjustment member may be provided.

Further, in the above embodiment, the pedestal 176 of the lateral adjusting member 174 is provided on the lateral positioning portion 29 on the first main body 22, but instead of this, it may be directly attached to the intermediate main body 24.

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

10 ... coating device, 12 ... backup roll, 14 ... laminated die, 16 ... bend device, 18 ... rotating shaft, 20 ... base, 22 ... first body, 24 ... Intermediate body, 26 ... 2nd body, 34 ... 1st coating blade edge, 40 ... Intermediate coating blade edge, 44 ... 2nd horizontal positioning part, 46 ... 1st Pull-in bolt, 48 ... 1st height indicator, 50 ... Vertical adjustment member, 54 ... 2nd adjustment bolt, 56 ... 2nd pull-in bolt, 58 ... 2nd height indicator , 59 ... Measuring unit, 64 ... 2nd coating cutting edge, 70 ... 1st shim, 80 ... 2nd shim, 138 ... 1st shim adjustment bolt, 140 ... 1st Sim vertical adjustment member, 146 ... 1st shim pin, 158 ... 2nd shim adjustment bolt, 160 ... slide member, 166 ... 2nd shim pin, 174 ... horizontal adjustment member, 176 ... Pedestal, 184 ... Horizontal shim adjustment bolt, 186 ... Slide member, 190 ... Vertical pin

Claims (10)

A backup roll in which the web runs on the lower peripheral surface in the front-back direction,
A laminated die arranged below the backup roll and laminating and coating the first coating liquid and the second coating liquid on the web, and
In the coating equipment with
The laminated die is
The base extending in the left-right direction and
The first main body, which is integrally erected from the front part of the upper surface of the base portion,
An intermediate body that is combined with the rear surface of the first body above the base to form a triangular vertical cross section,
The second main body combined with the rear surface of the intermediate main body and
A first liquid reservoir of the first coating liquid provided on the rear surface of the first main body, and
The first liquid passage of the first coating liquid between the first main body and the intermediate main body from the first liquid reservoir, and
The slit-shaped first discharge port of the first coating liquid at the upper end of the first liquid passage, and
The first shim sandwiched between the first main body and the intermediate main body,
A second liquid reservoir of the second coating liquid provided on the front surface of the second main body, and
The second liquid passage of the second coating liquid between the intermediate main body and the second main body from the second liquid reservoir, and
The slit-shaped second discharge port of the second coating liquid at the upper end of the second liquid passage, and
A second shim sandwiched between the intermediate body and the second body,
A first adjusting bolt provided on the base and adjusting the height of the intermediate body,
A vertical adjusting member provided at the rear of the base and
A second adjusting bolt provided on the vertical adjusting member and adjusting the height of the second main body, and
Coating equipment with. The first adjusting bolt penetrates the first adjusting screw hole opened in the base in the vertical direction.
The upper end of the first adjusting bolt supports the lower surface of the intermediate body.
The first adjusting bolt is moved up and down with respect to the base portion to move the intermediate body up and down.
The coating apparatus according to claim 1. The first pull-in bolt penetrates the first pull-in screw hole opened in the base in the vertical direction.
The upper part of the first pull-in bolt is screwed into the intermediate body.
The coating apparatus according to claim 2. A first height measuring means is provided at the base and
The first height measuring means measures the height of the intermediate body with respect to the base.
The coating apparatus according to claim 2. The second adjusting bolt penetrates the second adjusting screw hole opened in the vertical adjusting member in the vertical direction.
The upper end of the second adjusting bolt supports the second main body.
The second adjusting bolt is moved up and down with respect to the base portion to move the second main body up and down.
The coating apparatus according to claim 1. The second pull-in bolt penetrates the second pull-in screw hole opened in the vertical adjusting member in the vertical direction.
The upper part of the second pull-in bolt is screwed into the second main body.
The coating apparatus according to claim 5. A second height measuring means is provided at the base and
The second height measuring means measures the height of the second main body with respect to the base.
The coating apparatus according to claim 5. The first lateral positioning portion protrudes rearward from both the left and right sides of the first main body.
The intermediate main body is arranged between the pair of left and right first horizontal positioning portions.
The coating apparatus according to claim 1. A bending device is provided below the laminated die.
A pair of left and right arms are erected from both the left and right sides of the bend device.
Shaft boards are provided on both the left and right sides of the first main body.
The first lateral positioning portion protrudes rearward from the rear portion of the pair of left and right shaft substrates.
Support shafts protrude from the pair of left and right shaft boards, respectively.
A pair of left and right support shafts are rotatably attached to the pair of left and right arms.
The coating apparatus according to claim 8. The second lateral positioning portion protrudes rearward from both the left and right sides of the intermediate body.
The second main body is arranged between the pair of left and right second horizontal positioning portions.
The coating apparatus according to claim 1.

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