KR101980283B1 - Slot die coater and apparatus for manufacturing oral dissolving film - Google Patents

Abstract

Disclosed is a slot die coater for applying a coating liquid on a base film continuously running along a running direction of a base film, and an apparatus for manufacturing an oral dissolution film having the same. The disclosed slot die coater includes a slot die in which a coating liquid is applied to a base film, a slot die in which a coating liquid is applied, a tank in which a coating liquid is stored, A tilting servomotor for providing a power for tilting a slot die bracket, a slot die and a slot die bracket around a rotation axis parallel to the width direction of the base film, and a linear motion servomotor that provides a power to linearly move the slot die and the slot die bracket in a direction toward and away from the base film.

Description

TECHNICAL FIELD [0001] The present invention relates to a slot die coater and apparatus for manufacturing an oral dissolution film having the slot die coater,

The present invention relates to an apparatus for manufacturing an oral dissolution film, and more particularly, to an apparatus for manufacturing an oral dissolution film which applies a coating liquid to a base film using a slot die coater.

Oral dissolving film (ODF: oral dissolving film) is a film that is dissolved in the oral cavity such as tongue, oral mucosa, and sublingual. It is a film which is harmless to human body like starch and mixed with materials which are soluble in water. . Oral dissolution films are made by coating a viscous edible coating liquid on a base film, drying and packaging.

A slot die coater can be applied as a coater for applying an edible coating liquid to a base film in an apparatus for manufacturing an oral dissolution film. The slot die coater is used to apply a coating liquid so as to form a matrix spaced apart from each other on a base film. However, since the edible coating liquid has a high viscosity, the coating liquid discharged to the base film can be precisely cut off simply by turning off the pump that pressurizes the coating liquid to be discharged from the slots of the slot die. I can not. As a result, the gap between the preceding row and the succeeding row on the base film is dirty with the coating liquid, and the capacity of the coating liquid applied in the single dose is not constant.

Korean Patent Publication No. 10-1013206

According to the present invention, by applying a coating liquid so as to form a plurality of rows so as to be formed along the direction of the base film, the gap between the rows of the coating liquid is kept constant, a slot die coater in which no drop occurs, and an apparatus for manufacturing an oral dissolution film having the slot die coater.

The present invention relates to a method for manufacturing a base film, which comprises applying a coating solution on a base film which is continuously running along a direction of the base film, the slot die having a slot for applying the coating solution to the base film, A pump for pressurizing the coating liquid so that the coating liquid is discharged from the tank through the slot die through the slot, a slot die bracket for fixing and supporting the slot die, A tilting servomotor for providing a power for tilting the slot die and the slot die bracket around a rotation axis parallel to the width direction of the base film; And a linear motion servomotor that provides power for moving linearly in a direction approaching the base film and in the opposite direction Provides a slot die coater.

The slot die coater according to the present invention includes a slot die bracket support shaft extending along the rotation axis and fixed on the slot die bracket and rotating about the rotation axis by the power of the tilting servo motor, A rotation supporting deck for supporting the bracket supporting shaft in a rotatable manner; and a straight line moving linearly in a direction to approach the base film by the power of the linear motion servomotor and in a direction opposite thereto A moving deck can be further provided.

When the coating liquid is applied on the base film, the pump is operated in a state where the end of the slot is spaced apart from the base film by 50 to 200 占 퐉,

When the coating solution is not applied onto the base film, the slot die tilts in a direction in which the end of the slot rises when the pump stops operating so that the coating liquid does not adhere to the base film, It can move linearly in a direction away from the base film.

Wherein the slot die comprises at least one chamber in which a coating liquid introduced into the tank is accommodated, and a plurality of slots arranged in the same number as the number of rows for discharging the coating liquid through the slots, Said at least one chamber being connected in fluid flow communication with two to three discharge channels per chamber, said pump having a number of chambers in one-to-one correspondence with said at least one chamber, May be provided.

The pump and the tank are provided in a plurality of the same number so as to correspond to each other one by one, and the coating liquid stored in the plurality of tanks may not be unified into one kind.

The slot die may include an outlet channel provided in the same number as the number of rows so that the coating liquid flowing into the tank from the tank forms a plurality of rows and is discharged through the slots, And a channel height adjusting unit for adjusting the height.

Wherein the slot die comprises an upper die and a lower die overlapping each other and a spacer provided between the upper die and the lower die and provided with the plurality of discharge channels, And a plurality of adjusting bolts passing through the spacer and connecting the upper die and the lower die. The height of the plurality of discharge channels can be adjusted according to the rotational direction and the rotational angle of the plurality of adjusting bolts.

Wherein the spacer comprises a rigidly spaced spacer panel having a plurality of channel walls spaced apart from one another to form the plurality of exit channels and a spacer panel between the upper die and the spacer panel, And a seal formed of an elastic body interposed between at least one of the lower die and the spacer panel, wherein a plurality of bolt through holes through which the plurality of adjustment bolts penetrate are formed respectively in the plurality of channel walls, When at least one of the plurality of adjustment bolts is rotated, the height of the discharge channel adjacent to the rotated adjustment bolt may be changed.

The present invention also relates to a slot die coater as described above, which supports the base film when the coating liquid is applied, a coating supporting roller provided at a position facing a slot end of the slot die, a coating liquid applied to the base film, And a packing machine for individually packing the oral dissolution film formed by drying the coating solution. The present invention also provides an apparatus for manufacturing an oral dissolution film.

In the slot die coater of the present invention, the tilting of the slot die and the linear motion in the direction toward the base film and in the opposite direction are driven by the tilting servomotor and the linear servomotor, respectively. Accordingly, since the tilting and linear motion of the slot die are controlled to a higher degree than in the case of being driven by an actuator including a hydraulic cylinder or a pneumatic cylinder, or by a general motor, the leading gap of the coating liquid on the base film becomes high Precision, and does not cause an unintentional drop of the coating liquid between the leading lines. Therefore, the error of the single dose of the oral dissolution film is reduced, the defects are reduced, and contamination or poor packaging is prevented during packaging.

1 is a configuration diagram of an apparatus for manufacturing an oral dissolution film according to an embodiment of the present invention.
Figure 2 is a top plan view of the slot die and coating support roller of Figure 1, viewed from above.
3 is an exploded perspective view of the slot die of FIG.
Fig. 4 is a cross-sectional view cut along the line IV-IV of Fig. 2;
5 and 6 are a top view and a side view of the slot die coater of FIG.
7 to 10 are views sequentially showing the operation of the slot die coater of FIG.

Hereinafter, a slot die coater according to an embodiment of the present invention and an apparatus for manufacturing an oral dissolution film having the same will be described in detail with reference to the accompanying drawings. The terminology used herein is a term used to properly express the preferred embodiment of the present invention, which may vary depending on the intention of the user or operator or the custom in the field to which the present invention belongs. Therefore, the definitions of these terms should be based on the contents throughout this specification.

FIG. 2 is a top plan view of the slot die and coating support roller of FIG. 1, and FIG. 3 is an exploded perspective view of the slot die of FIG. 1; And Fig. 4 is a cross-sectional view cut along the line IV-IV of Fig. 1 to 4, an apparatus 10 for manufacturing an oral dissolved film according to an embodiment of the present invention is an apparatus for manufacturing an oral dissolution film (ODF) by a roll-to-roll method, A film feeder (not shown) for transferring the film 2 uninterrupted along a specified path, and a slot die coater sequentially disposed on the progress path of the base film 2, (20), a dryer (91), and a packing machine (92).

The film conveyor includes a supply roller (not shown) for releasing the supplied base film 2 and a feed roller (not shown) for moving the base film 2 in a predetermined direction, . The slot die coater 20 applies the edible coating liquid 3 on the base film 2 through the slots 36 of the slot die 21 to form a plurality of matrices. Here, the plurality of rows are separated from each other along the longitudinal direction of the base film 2, and the plurality of rows are separated from each other along the width direction of the base film 2. The heat of the coating liquid 3 is divided into twelve (i to xii). The release agent may be previously coated on one side of the base film 2 to which the coating liquid 3 is applied.

The apparatus 10 for manufacturing an oral dissolution film further comprises a coating supporting roller 11 for supporting the base film 2 when the coating liquid 3 is applied by the slot die coater 20. The coating support roller 11 is provided at a position facing the slot 36 of the slot die 21. A guide roller 16 disposed upstream of the coating supporting roller 11 along the course of the base film 2 guides the path of the base film 2 toward the coating supporting roller 11, The guide roller 17 disposed downstream of the coating supporting roller 11 passes through the coating supporting roller 11 and guides the path of the base film 2 to which the coating solution 3 is applied.

The dryer 91 dries the coating liquid 3 applied to the base film 2 to form an oral dissolution film. The packing machine 92 packs the oral dissolution film formed by drying the coating liquid 3 singly. Further, the oral dissolution film is covered with a cover film (not shown), and the cover film between the oral dissolution films arranged in a matrix is thermally bonded to the base film 2 to separate and seal the oral dissolution films one by one , The heat-sealed portion is slitted and cut to produce a separately packaged oral dissolution film.

The slot die coater 20 includes a slot die 21 in which a slot 36 is formed so that the coating liquid 3 is applied to the base film 2 and four tanks 52 in which the coating liquid 3 is stored Four pumps 51 for pressurizing the coating liquid 3 so that the coating liquid 3 is discharged from the four tanks 52 through the slot die 21 and through the end of the slot 36 ), A slot die bracket 80 (see FIG. 6) for fixing and supporting the slot die 21, a slot die 21 and the slot die bracket 80 in the width direction of the base film 2 A tilting servomotor 85 for providing power to tilting a parallel rotational axis CR and a slot die 21 and slot die bracket 80 to a base film 2 And a linear motion servomotor (61) for providing a power for linear movement in a direction approaching and in the opposite direction.

In other words, the direction approaching the base film 20 is parallel to the direction of positive X-axis in the direction of approaching the coating supporting roller 11, and the opposite direction is away from the coating supporting roller 11 The number of the tanks 52 and the number of the pumps 51 are only illustrative, and the number of the other tanks and the pump is the same as the direction of the X- .

The slot die 21 is disposed in the slot die 21 so that the coating liquid 3 flowing into the slot die 21 from the plurality of tanks 52 forms a plurality of rows and is discharged to the outside through the slot 36. [ And a channel height adjusting unit for adjusting a height GP of the plurality of discharge channels 43. The plurality of discharge channels 43 are provided in the same number as the number of the discharge channels 43, In the embodiment shown in the drawing, the number of rows of the coating liquid 3 and the number of the discharge channels 43 are 12, but this is merely an example of the present invention.

Specifically, the slot die 21 is interposed between the upper die 22 and the lower die 30, and between the upper die 22 and the lower die 30, and the plurality of discharge channels 43, And a spacer 40 provided thereon. The height GP of the channel 43 is equal to the gap of the slot 36 between the upper die 22 and the lower die 30.

The spacer 40 includes a spacer panel 41 having a plurality of channel walls 42 spaced apart from one another to form a plurality of discharge channels 43, A first seal 45 interposed between the panels 41 and a second seal 46 interposed between the lower die 30 and the spacer panel 41. The upper die 22, the lower die 30, and the spacer panel 41 are made of, for example, a rigid material such as stainless steel. A plurality of discharge channels 43 formed by the plurality of channel walls 42 are formed by grooves which are opened on the side facing the coating support roller 11 and are deeply punched in the direction parallel to the direction of the negative X- to be.

The first seal 45 and the second seal 46 are made of, for example, an elastic body such as rubber. The first seal 45 and the second seal 46 may be adhered to the spacer panel 41, or may be in a state in which they are not adhered but detachably adhered. The first seal 45 and the second seal 46 may be disposed to form a closed curve of a constant width along the edges of the spacer panel 41 and the plurality of channel walls 42 as shown in FIG. , It may be arranged so as to be aligned with and overlapped with the spacer panel 41 as a member having the same shape as the plane shape of the spacer panel 41. [

In the lower die 30, four chambers 33 in which the coating liquid 3 is accommodated are formed. The four chambers 33 are arranged in a line in a direction parallel to the Y axis. A plurality of chambers 33 extending from the back surface of the lower die 30 to the respective chambers 33 so as to allow the coating liquid 3 to flow into the four chambers 33 from the outside of the slot die 21, The number of the inflow channels 35 is formed.

2, when the upper die 22, the lower die 30, and the spacers 41 of the slot die coater 20 are assembled, the four chambers 33 are arranged in three chambers 33 And is connected to the discharge channel 43 so as to be in a liquid-flowable manner. The four pumps 51 are installed on four coating fluid channels 54 for guiding the coating fluid 30 stored in the four tanks 52 to the four inlet channels 35 of the slot die 212. [ The coating liquid flow path 54 may be a hose or a tube which can be bent.

 The four pumps 51 are provided in the same number as the number of the chambers 33 so as to correspond to the four chambers 33 on a one-to-one basis. The four pumps 51 pressurize the coating liquid 3 to supply the coating liquid 3 to the four chambers 33 inside the slot die coater 20 through the four coating liquid flow paths 54. When the four pumps 51 operate in a state in which the slot 36 of the slot die 21 is close to the coating supporting roller 11 while the base film 2 passes through the coating supporting roller 11 Four tanks 52, four coating liquid flow paths 54, four inlet channels 35, four chambers 33, and twelve discharge channels 43 in this order and flows out to the base film 2, (I-xii). ≪ / RTI >

With this configuration, one pump 51 takes charge of the discharge pressure of the coating liquid 3 discharged through the three discharge channels 43 in the slot die coater 20. Therefore, since the pressure is applied to each of the discharge channels more than when the coating liquid discharged through the plurality of discharge channels is pressurized by one pump, the uniformity of the flow rate of the coating liquid 3 discharged through each discharge channel 43 . On the other hand, the cost and the maintenance cost of the apparatus for manufacturing an oral dissolution film are reduced rather than the case where a plurality of discharge channels and a plurality of pumps are corresponded one to one.

One kind of coating liquid 3 may be stored in each of the four tanks 52 or a different kind of coating liquid 3 may be stored in which the components and compositions of the respective tanks 52 are distinguished. The first to third columns (i, ii, iii) applied to the base film 2 and the fourth to sixth columns iv, iv, iii and iii when the different kinds of coating liquid 3 are stored in the respective tanks 52, vii and vii and the coating liquid 3 of the seventh to ninth columns vii, viii and ix and the tenth to twelfth columns x, xi and xii are different from each other. On the other hand, the apparatus for producing orally dissolving film 10 of the present invention is not limited to the configuration in which the pump 51 and the tank 52 correspond to each other on a one-to-one basis, but may also include a plurality of pumps and one tank.

The width WF1 of the coating liquid 3 of each column i to xii applied to the base film 2 corresponds to the width WC1 of each discharge channel 43 of the slot die 21, They are the same. The distance WF2 between the coating liquids 3 of the adjacent columns i to xii is greater than the width WC2 of the channel wall 42 between the adjacent pair of discharge channels 43 of the slot die coater 20. [ And they are substantially equal to one another.

The channel height adjusting unit of the slot die 21 has a plurality of adjusting bolts 26 passing through the spacer 40 and connecting the upper die 22 and the lower die 30. Specifically, thirteen adjustment bolts 26 may be provided. Each adjustment bolt 26 has a head portion 27 on the upper side and a screw portion 28 on the lower side. A male screw pattern is formed on the outer circumferential surface of the screw portion 28. A diameter of the head portion 27 is larger than a diameter of the screw portion 28 and a stepped stepped surface 29 is formed at a boundary portion between the head portion 27 and the screw portion 28.

13 channel walls 42 extending parallel to the X axis are spaced apart to form twelve discharge channels 43. Bolt holes 44 through which the adjusting bolt 26, Respectively. The upper die 22 is formed with 13 bolt holes 23 aligned with the 13 bolt holes 44. A stopper face 24 is formed on the inner circumferential surface of each bolt fastening hole 23 so as to interfere with the stepped surface 29 of the adjustment bolt 26.

The lower die 30 is formed with 13 screw holes 31 aligned with the 13 bolt holes 44 and 13 bolt holes 23 in series. A male screw pattern corresponding to the male screw pattern on the outer circumferential surface of the screw portion 28 is formed on the inner circumferential surface of each screw hole 31. When the adjusting bolt 26 is inserted into the bolt fastening hole 23 of the upper die 22, the head portion 27 of the adjusting bolt 26 is blocked by the stopper surface 24 and passes through the upper die 22 Only the screw portion 28 passes through the bolt fastening hole 23 and the bolt hole 44 and extends to the screw hole 31 of the lower die 30 and is screwed.

When the adjusting bolt is rotated in the direction in which the screw portion 28 of the adjusting bolt 26 is inserted further into the screw hole 31 of the lower die 30, the stopper surface 24 of the bolt fastening hole 23 The stepped surface 29 of the interlocking adjustment bolt 26 presses the upper die 22 so that the upper die 22 approaches the lower die 30 side. At this time, the spacer panel 42 of the spacer 40 is made of a rigid body and the thickness TP is not changed. However, the first seal 45 and the second seal 46, which are made of an elastic body, So that the height GP of the discharge channel 43 becomes small. When the height GP of the discharge channel 43 is reduced, the flow rate of the coating liquid 3 discharged through the corresponding discharge channel 43 is reduced and the thickness of the coating liquid 3 applied to the base film 2 TL) becomes thin.

The first seal 45 and the second seal 46 are resiliently restored to the discharge channel 43 when the adjustment bolt 26 rotates in a direction opposite to the direction in which the height GP of the discharge channel 43 is reduced, The height GP of the display device becomes large. The flow rate of the coating liquid 3 discharged through the corresponding discharge channel 43 increases and the thickness TL of the coating liquid 3 applied to the base film 2 increases as the height GP of the discharge channel 43 increases. ) Becomes thicker. The height GP of the discharge channel 43 adjacent to the rotated adjusting bolt 26 is changed when an operator of the apparatus for manufacturing an oral melt film 10 rotates at least one of the 13 adjusting bolts 26. [

Meanwhile, the channel height adjusting unit may include an adjusting bolt actuator for rotating each of the plurality of adjusting bolts 26 clockwise and counterclockwise. The adjusting bolt actuator may include 13 servo motors corresponding one-to-one with the 13 adjusting bolts 26. The orally dissolvable film production apparatus 10 may further include a thickness measuring device (not shown) for measuring the thickness TL of the coating liquid 3 applied to the base film 2. The thickness gauge may be, for example, a photo sensor. The thickness measuring device includes 12 light emitting portions for irradiating 12 rows (i to xii) of the coating liquid 3 applied to the base film 2, And 12 light receiving portions for receiving the light irradiated from the light emitting portion.

The controller of the oral dissolution film producing apparatus 10 measures the heat of the coating liquid 3 that deviates from the predetermined normal thickness range out of the thickness TL of the coating liquid 3 of each column i to xii measured by the thickness measuring machine xii) exists, the channel height adjusting unit is controlled so that the thickness TL of the coating liquid 3 of the column (i to xii) converges to the normal thickness range. In addition, the controller can transmit a control signal to the adjustment bolt actuator so that the rotation direction and the rotation angle of each of the 13 adjustment bolts 26 are adjusted.

As a concrete example, if it is determined that the thickness TL of the coating liquid 3 of the first column (i) in the thickness TL of the coating liquid 3 measured through the thickness measuring device is thicker than the normal thickness range, the controller 65 The adjustment bolt 26 is rotated in the direction parallel to the Y axis positive direction by a predetermined angle in the direction in which the height GP of the discharge channel 43 is reduced. . Then, if it is determined that the thickness TL of the coating liquid 3 of the first row (i) measured again through the thickness measuring device is still thicker than the normal thickness range but the error is smaller than before, the controller The control signal is transmitted to the adjustment bolt actuator and this process is repeated so that the thickness TL of the coating liquid 3 of the first row i converges to the normal thickness range.

On the other hand, if it is determined that the thickness TL of the coating liquid 3 of the first row (i) measured again by the thickness measuring device is thinner than the normal thickness range, the controller is moved in the direction parallel to the positive The control signal is transmitted to the adjustment bolt actuator such that the first and second adjustment bolts 26 rotate by a smaller angle than the previous one in the direction in which the height GP of the discharge channel 43 increases.

In summary, the oral dissolution film production apparatus 10 measures the thickness TL of each column (i to xii) of the coating liquid 3 coated with a plurality of columns (i to xii) through a thickness measuring device, The height GP of the plurality of discharge channels 43 of the slot die 21 is controlled in a feedback control manner. Therefore, the thickness TL of the coating liquid 3 applied to the base film 2 and the coating amount can be kept constant with high precision. Therefore, it is possible to prevent incomplete drying or excessive drying of the coating liquid (3) during the drying process through the dryer (91), to prevent defects due to the product capacity error, and to prevent the manufacturing cost from rising. In addition, it is possible to prevent side effects due to the use of an oral dissolution film that is over-capacity or under-capacity. However, the above-mentioned channel height adjusting unit is merely an example of the channel height adjusting unit of the apparatus for manufacturing oral cavity dissolution film of the present invention, and may have a different structure from that shown.

FIGS. 5 and 6 are a plan view and a side view of the slot die coater of FIG. 1, and FIGS. 7 to 10 sequentially show the operation of the slot die coater of FIG. Referring to FIGS. 1, 5 and 6 together, the coating liquid 3 applied to the base film 2 has a constant inter-line spacing SP (see FIG. 2) between adjacent rows In the apparatus 10 for producing an oral-melt film of the present invention, the inter-line spacing SP is maintained uniformly with a high degree of accuracy.

The slot die coater 20 further includes a slot die bracket support shaft 89, a rotation support deck 77 and an X direction linear movement deck 70. [ The slot die bracket support shaft 89 extends along the rotation axis CR and is connected to a pair of side wall portions 81 at both ends of the slot die bracket 80 to fix the slot die bracket 80 , And is rotated about the rotation axis CR by the power of the tilting servo motor 85. [ The rotary support deck (77) rotatably supports the slot die bracket support shaft (89). The rotation shaft (not shown) of the tilting servomotor 85 is connected to the speed reducer 86 and is connected to the speed reducer 86 and the slot supporting side wall portion 78 of the rotation support deck 77, One end of the bracket support shaft 89 is connected to each other by a coupling 87.

The X-direction linear movement deck 70 supports the rotation support deck 77 with the Y-direction linear movement deck 73 sandwiched therebetween. The X-axis linear movement deck 70 supports the X- +) And in the opposite direction. The rotary shaft (not shown) of the linear motion servomotor 61 is connected to the speed reducer 62 and the screw 65 extending in the direction parallel to the speed reducer 62 is coupled to the coupling 63 Respectively. The screw securing member 67 is screwed to the screw 65 and fixedly coupled to the X-direction linear motion deck 70. [

An X-direction guide rail (X-direction guide rail) 70 extending in a direction parallel to the X-axis is provided below the X-direction linear movement deck 70 so that the X- Direction guide rail 69 is fixed to the lower side of the X-direction linear movement deck 70 in such a manner that the X-direction guide rail 69 slides in the direction in which the X- A guide slot member 71 is fixed.

When the rotary shaft (not shown) of the linear motion servomotor 61 rotates, the slot die 21, the slot die bracket 80, the slot die bracket support shaft 89, The rotary support deck 77, the tilting servo motor 85, and the Y-direction linear movement deck 73 move together in the direction parallel to the X-axis. The linear movement amount of the X-direction linear movement deck 70 and the slot die 21 is controlled with high precision because the rotation angle of the rotary shaft (not shown) is controlled with high precision in the linear motion servomotor 61 serving as the servo motor .

When the rotary shaft (not shown) of the tilting servomotor 85 rotates, the slot die bracket support shaft 89, the slot die bracket 80, and the slot die 21 rotate about the center of rotation axis CR . The tilting angle of the slot die bracket 80 and the slot die 21 is highly precisely controlled since the rotation angle of the rotary shaft (not shown) is controlled with high precision.

The Y direction linear movement deck 73 supports the rotary support deck 77 and supports the X direction linear movement deck 70 so as to be movable in the direction parallel to the Y axis with respect to the X direction linear movement deck 70 . When the operator of the apparatus 10 for manufacturing the oral melt film rotates the Y-direction movement dial 75, the Y-direction linear movement deck 70 and the rotation support deck 77, The slot die bracket 80, and the slot die 21 move in parallel to the positive (+) or negative (negative) direction of the Y axis. Therefore, the position of the slot die 21 in the direction parallel to the Y-axis with respect to the base film 2 can be precisely adjusted by turning the Y-direction movement dial 75 appropriately.

Hereinafter, the operation of the slot die coater 20 for applying the coating liquid 3 to the base film 2 will be described with reference to Figs. 1, 2, and 7 to 10. Fig. When the coating liquid 3 is applied onto the base film 2 by using the slot die 21, the end of the slot 36 is separated from the base film 2 by a distance of 50 to 200 탆 apart The pump 51 is operated. On the other hand, when the coating liquid 3 is not applied on the base film 2, in order to prevent the coating liquid 3 from being deposited on the base film 2, when the pump 51 stops operating, Moves linearly in a direction away from the base film (2) while tilting in a direction in which the end of the slot (36) rises around the axis of rotation (CR).

In detail, the following description will be given sequentially. 7, when the base film 2 supported by the coating supporting roller 11 and the end of the slot 36 of the slot die 21 are sufficiently separated from each other, the base film 2 is coated with the coating liquid 3 ) Is not applied. At this time, the slot die 21 is in a non-tilted state, that is, is not tilted. The distance between the end of the slot 36 and the base film 2 may be, for example, 20 to 50 mm.

8, when the base film 2 is supported by the coating supporting roller 11 and moves in the arrow direction at a constant speed, the driving of the linear motion servomotor 61 (see FIG. 5) Axis direction so as to approach the base film 2 and a plurality of pumps 51 (see FIG. 2) are operated to move the coating liquid 3 to the end of the slot 36 And the coating liquid 3 of plural rows (i to xii) (see Fig. 2) is applied to the base film 2. The distance between the end of the slot 36 and the base film 2 may be 50 to 200 탆.

Referring to Fig. 9, the base film 2 is moving in the direction of the arrow at a constant speed, and the plurality of pumps 51 stops operating. Almost simultaneously with the operation stop of the pump 51, the slot die 21 moves in the direction in which the end of the slot 36 rises with the rotation axis CR as the center by driving the tilting servo motor 85 (see Fig. 5) Tilting. The tilting angle AT may be, for example, 5 to 30 degrees. The tilting angle AT may vary depending on the viscosity of the coating liquid 3. [

10, the slot die 21 is driven by the linear motion servomotor 61 so as to be spaced apart from the base film 2 by the tilting of the slot die 21, Direction. Then, the slot die 21 is tilted in the direction in which the end of the slot 36 descends about the rotation axis CR by the driving of the tilting servo motor 85, and returns to the initial posture as shown in FIG. 7 . The process of applying the next coating liquid 3 to the base film 2 is the same as the process described with reference to Figs. 7 to 10.

The tilting of the slot die 21 and the linear movement of the slot die 21 together with the operation stop of the pump 51 are combined so that the coating length of the coating liquid 3 in the longitudinal direction of the base film 2, SP) (see Fig. 2) and the uniformity of the application amount of the coating liquid 3 are reliably maintained. Also, the unintentional drop of the coating liquid 3 does not occur between the rows of the coating liquid 3 matrix.

The tilting of the slot die 21 and the linear movement in the direction toward the base film 2 and the opposite direction of the slot die 21 are performed by the tilting servomotor 85 and the linear motion servo- (61). Accordingly, since the tilting and linear motion of the slot die 21 are controlled to a high degree of accuracy, as compared with the case of being driven by an actuator including a hydraulic cylinder or a pneumatic cylinder, or by a general motor, The inter-line spacing SP of the printed circuit board 3 can be kept constant at a high precision. Therefore, the error of the single dose of the oral dissolution film is reduced, the defects are reduced, and contamination or poor packaging is prevented during packaging.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

2: base film 3: coating liquid
10: Oral dissolution film production apparatus 11: Coating support roller
20: Slot die coater 21: Slot die
51: pump 52: tank
61: Linear Motion Servo Motor 85: Tilting Servo Motor
91: dryer 92: packing machine

Claims (9)

By applying the coating liquid on the base film which proceeds continuously along the running direction of the base film,
A slot die having a slot for applying the coating liquid to the base film; A tank in which the coating liquid is stored; A pump for pressurizing the coating liquid such that the coating liquid is discharged from the tank through the slot die through the slot; A slot die bracket fixedly supporting the slot die; A tilting servomotor for providing power for tilting the slot die and the slot die bracket around a rotation axis parallel to the width direction of the base film; And a linear motion servomotor for linearly moving the slot die and the slot die bracket in a direction toward and away from the base film,
The slot die may include an outlet channel provided in the same number as the number of rows so that the coating liquid flowing into the tank from the tank forms a plurality of rows and is discharged through the slots, And a channel height adjusting unit for adjusting the height,
Wherein the slot die comprises an upper die and a lower die overlapping each other and a spacer provided between the upper die and the lower die and provided with the plurality of discharge channels,
The channel height adjusting unit includes a plurality of adjusting bolts passing through the spacer and connecting the upper die and the lower die,
Wherein a height of the plurality of discharge channels is adjusted according to a rotation direction and a rotation angle of the plurality of adjustment bolts. The method according to claim 1,
A slot die bracket support shaft extending along the rotation axis and fixed on the slot die bracket, the slot die bracket support shaft rotating around the rotation axis by the power of the tilting servo motor; A rotation support deck rotatably supporting the slot die bracket support shaft; And a linear movement deck supporting the rotary support deck and linearly moving in a direction of approaching to the base film by the power of the linear motion servo motor and in a direction opposite thereto. The method according to claim 1,
When the coating liquid is applied on the base film, the pump is operated in a state where the end of the slot is spaced apart from the base film by 50 to 200 占 퐉,
When the coating solution is not applied onto the base film, the slot die tilts in a direction in which the end of the slot rises when the pump stops operating so that the coating liquid does not adhere to the base film, Wherein the film is linearly moved in a direction away from the base film. The method according to claim 1,
Wherein the slot die comprises at least one chamber in which a coating liquid introduced into the tank is accommodated, and a plurality of slots arranged in the same number as the number of rows for discharging the coating liquid through the slots, An outlet channel,
Wherein the at least one chamber is fluidly connected to two to three discharge channels per chamber,
Wherein the pump is provided with a number equal to the number of the chambers so as to correspond one-to-one with the at least one chamber. 5. The method of claim 4,
Wherein the pump and the tank are provided in a plurality of the same number so as to correspond one to one,
Characterized in that the coating liquids stored in the plurality of tanks are not unified into one kind. delete delete The method according to claim 1,
Wherein the spacer comprises a rigidly spaced spacer panel having a plurality of channel walls spaced apart from one another to form the plurality of exit channels and a spacer panel between the upper die and the spacer panel, And a seal made of an elastic body and interposed between at least one of the lower die and the spacer panel,
Bolt holes through which the plurality of adjustment bolts pass are respectively formed in the plurality of channel walls,
Wherein the height of the discharge channel adjacent to the rotated adjusting bolt is changed when at least one of the plurality of adjusting bolts is rotated. A slot die coater according to any one of claims 1, 2, 3, 4, 5 and 8;
A coating supporting roller provided at a position facing the slot end of the slot die for supporting the base film when the coating liquid is applied;
A dryer for drying the coating liquid applied to the base film to form an oral dissolution film; And
And a packaging machine for individually packing the orally dissolvable films formed by drying the coating solution.

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