RU2043791C1 - Method and device for production of multilayer coating - Google Patents

Abstract

FIELD: production of multilayer coatings. SUBSTANCE: method involves introducing a porous material into a layer of fluid composition. The latter is applied at different planes intersecting at an angle of α. The porous material is introduced at an angle of b to the plane of application of the second layer of fluid composition, with a < b < 180 deg. For this purpose the surface of the pouring table has two intersecting surfaces with a means for applying fluid composition above each of them. The device also comprises a guide member for introduction of porous material. Said member is disposed above the plane of application of the first layer of fluid composition at an adjustable distance therefrom, below the application plane of the second layer of fluid composition. EFFECT: higher quality of coatings. 2 cl, 3 dwg

Description

 The invention relates to a technology for producing multilayer coatings, and in particular to a technology for the production of new dosage forms of cutaneous therapeutic systems (hereinafter NTS) for a wide range of medicinal substances.

A known method of producing a two-layer coating, in which the first layer is more viscous, primer, is applied with a squeegee, and the second, facing, flows down on the upper surface of the squeegee, as if on an inclined plane and connected to the first [1]
A device for implementing the method comprises a means for applying highly viscous fluid compositions, made in the form of a doctor blade with an upper inclined plane, a means for drawing fabric.

A known method of producing multilayer coatings, in which layers of a viscous fluid composition are applied to the moving fabric alternately in the same plane [2]
A device for implementing the method comprises means for applying a fluid composition to a movable web, a drying table, and a pulling system. These method and device are closest to the invention.

 The specified method and device do not allow to obtain high-quality NTS when introducing into the fluid composition an intermediate layer of a porous woven or non-woven material, i.e. the immersion of the material in the first layer of the fluid composition will only occur under the action of gravity, while if the density of the fluid composition is greater than the density of the introduced material, this material will not be immersed in the liquid, and when applying the second layer of the fluid composition, the air in the pores of the material will be sealed.

 The objective of the invention is to provide the necessary immersion depth of the introduced material and the removal of air from the pores of the immersed material, i.e. improving the quality of the NTS.

The solution to the problem is achieved by the fact that in the known method for producing a multilayer coating, which consists in applying layers of a fluid composition to a movable web, the fluid composition is applied in different planes intersecting each other at an angle α and also enter the fabric or porous non-woven material at an angle β to the plane applying a second layer of a fluid composition, with α <β <180 ^about .

 The solution to the problem is also achieved by the fact that in the known device containing a means for applying a fluid composition to a moving web, drying and watering tables, a system of drawing the web according to the invention, the surface of the drying table has two intersecting planes, on each of which there is a means for applying viscous flowable composition. In addition, the device is equipped with a guide element for introducing a porous material located above the plane of application of the first layer of the fluid composition at an adjustable distance from it below the plane of application of the second layer of the fluid composition.

 In FIG. 1 schematically shows a general view of the installation; figure 2, the method of input tissue; in Fig.3 cutaneous therapeutic system in section.

A device for implementing the method comprises means for applying a fluid composition of the cuvette 1 and 2, a device for introducing material with a guiding element 3, which regulates the immersion depth of the material, an irrigation table 4 with planes 5 and 6 intersecting at an angle α, the drying chamber, which includes a drying table 7 and an airtight casing 8 above it, a cooling plate 9, a drawing system 10 of the web, a laminating roller 11. The guiding element 3 is located above the plane 5 below the plane 6 and provides the input of fabric or porous non-woven fabric material at an angle β
NTO consists of a movable web 12 (polyethylene terephthalate film substrate), a first layer 13 of a fluid composition (diffusion matrix); porous material 14, the second layer 15 of the fluid composition (second layer of the diffusion matrix), the release material 16.

 The method is as follows.

The web 12 coated with the first layer 13 of fluid composition moves in the plane of plane 5 to 6. Simultaneously, in the same direction at an angle α to the plane 6 is performed administered material 14. As the material is introduced at an angle of β ^<180 ° to the plane 6, when passing through the α-angle of intersection of the planes, the material 14 is forcefully inserted into the first layer 13, immersed in it, and the resulting counteracting force squeezes air out of the pores of the material 14. When the web 12 is applied with the first layer 13 of the composition introduced by the material 14 flatly spine 6 is applied a second layer 15 of fluid composition.

 The device operates as follows.

 In the system of drawing 10 of the sheet, the ends of the sheet 12 and material 14 are fixed. The guide element 3 of the device for introducing fabric or porous material is mounted above the plane 5 below plane 6. The tables 4 and 7 are turned on. The fluid composition with known viscosity and temperature is fed into cuvettes 1 and 2 so that the level of irrigation solution in the ditches remains within the specified limits.

 When the system of drawing 10 of the fabric is turned on, the fabric 12 moves with constant speed along the planes 5 and 6 of the table 4, along the surface of the drying table 7 and on the surface of the cooling plate 9 under cuvettes 1 and 2, under the guide elements 3 of the device for introducing fabric or porous non-woven material and under a sealed casing 8. When passing the web 12 under the cuvette 1, a first layer 13 of the fluid composition of a given thickness is applied to it. In the same direction, at the same speed, the porous material 14 moves through the guiding element 3. When passing through the intersection line of planes 5 and 6, the material is pressed to the line and at the same time immersed in the first layer 13 of a viscous fluid composition, and the air is forced out of the pores of the material 14. When the web 12 moves with the first layer 13 of the fluid composition applied and the material 14 introduced under the cuvette 2 on the plane 6, a second layer 15 of the viscous fluid composition is applied to it. When the blade 12 with the deposited layers 13 and 15 and the blade 14 moves along the surface of the table 7 under the casing 8, the solvent evaporates, while passing through the cooling plate 9, the blade with the applied layers and material is cooled. Then, with the help of a laminating roller 11, the release material 16 is continuously rolled to the dried layer of the fluid composition 15, thus forming the finished product of the cutaneous therapeutic system.

Based on the experiments conducted, a relationship was established between the viscosity of the fluid solution and the angle α: for example, when the viscosity of the fluid solution is from 10 to 30 Pa · s, the angle α≥ 135 ^about .

Claims (1)

1. A method of obtaining a multilayer coating, which consists in applying layers of a fluid composition to a moving web, characterized in that a porous material is additionally introduced into the layer of the fluid composition, the fluid composition being applied in different planes intersecting at an angle α and the porous material is introduced under angle b to the plane of application of the second layer of the fluid composition, with α <β <180 ^° .
2. A device for producing a multilayer coating containing means for applying a fluid composition to a moving web, watering and drying tables, a system of drawing a web, characterized in that the surface of the watering table has two intersecting planes, on each of which there is a means for applying a fluid composition, in addition, the device is equipped with guide elements for introducing a porous material located above the plane of application of the first layer of the fluid composition at an adjustable distance from below the plane of application of the second layer of the fluid composition.

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