JPH04189353A - Production of air permeable tacky adhesive tape or sheet - Google Patents

Abstract

PURPOSE:To obtain the air permeable tacky adhesive tape or sheet having excellent air permeation performance by spraying a prescribed volume of water separately in 2 or more stages. CONSTITUTION:A toluene soln. of an acrylic tacky adhesive is applied on release paper 10 moving at a line speed to form a tacky adhesive soln. layer and thereafter, the water is sprayed in the form of drops respectively by two spray guns 2, 3 disposed in the moving direction of the release paper on the surface thereof while the tacky adhesive soln. layer is undried. The 1st spraying is so executed that the particle size of the water drops right after the spraying attains 100 to 200mum and the 2nd spraying is so executed that the particle size of the water drops right after the spraying attains 150 to 300mum. The tacky adhesive soln. layer is dried with hot air by a dryer 4, by which the dry tacky adhesive layer is obtd.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for producing a breathable adhesive tape or sheet used for medical and other uses.

(Prior Art) Conventionally, medical adhesive products such as bandages are used by being applied directly to the human body, but if left in that state for a long time,
This blocks moisture from evaporating from the skin's surface, causing itching and rashes.

In order to prevent this, it is effective to make the adhesive product breathable. Therefore, many attempts have been made to make adhesive products breathable.

As a new example, for example, an organic solvent solution of an adhesive is applied to the surface of a releasable sheet to form an adhesive solution layer, and then, while the adhesive solution layer is in an undried state, a predetermined amount of A method of spraying water in the form of fine droplets at once on the surface of the adhesive solution layer, then drying this to form a dry adhesive layer with micropores, and laminating this on an air-permeable base. It has been known. The principle of forming vent holes in the dry adhesive layer by this method is as shown in FIG.

That is, when the adhesive solution layer (11) formed on the surface of the releasable sheet (10) is in an undried state, water is sprinkled in the form of droplets on the surface of the adhesive solution layer (11).
As shown in Figure 4(a), the attached water droplets (12) sink into the adhesive solution layer (11), thereby forming minute depressions (13) on the surface of the adhesive solution layer (11). be done.

Next, when it is dried in a drying device, both the water and the solvent evaporate, and as shown in FIG. 4(b),
The water droplet (12-) becomes smaller by the amount of water that evaporates, so
The adhesive solution flows and the recess (13) becomes slightly smaller.

At this time, the adhesive solution layer (11) also dries slightly and its thickness becomes thinner. As water evaporates due to subsequent drying,
As shown in Figure 4 (C), the remaining water droplet (12) becomes smaller than the recess (13), or the solvent evaporates and the viscosity of the adhesive increases, so the adhesive stops flowing and A state adhesive layer (IIA) is obtained. The thickness of the adhesive layer (ilA) in the intermediate state is even thinner than that shown in FIG. 4(b). Furthermore, as the water and solvent evaporate, the adhesive layer (1, 1A
) contracts and the recess (13) widens, and the water evaporates completely. After that, the solvent continues to evaporate and the adhesive layer (1, 1A) continues to shrink, and as shown in Figure 4(f), the bottom of the recess (13) breaks off and the vent hole (
14) is formed, and the viscosity of the adhesive is increased to the desired viscosity. In this way, a dry adhesive layer (IIB) having ventilation holes (14) is formed. This method is described as a relatively simple method.

(Problems to be Solved by the Invention) However, the above method has a problem in that the produced breathable adhesive tape or sheet does not have sufficient breathability performance.

As a result of various experiments and studies, the inventors of the present invention found that the above problem occurs due to the following reasons. In other words, in the process of spraying water droplets in the above method, if a predetermined amount of water is sprayed at once in the form of fine droplets, the amount of sprayed water is large, so the number of water droplets also increases, and the water droplets are separated from each other in the air. It coagulates in the pores, and its particle size increases.

Then, such water droplets (12) spread onto the adhesive solution layer (1
), as shown in FIG. (12)
The water droplets sprayed from the air and the water droplets (12) that had previously adhered to the surface of the adhesive solution layer (11) combine to increase the particle size and spread horizontally into a flat shape. Therefore, the recess formed by the water droplet (12) (
13) will be reduced in number and will be distributed in a coarse manner. As a result, the number of ventilation holes (J4) formed in the dried adhesive layer (11B) obtained by subsequent drying also decreases, and the total area of the ventilation holes 14) in a predetermined range does not become sufficiently large. Moreover, if the size of the water droplets (12) attached to the adhesive solution layer (11) and the recesses (13) formed thereby become too large, the recesses (13) will remain as they are even after subsequent drying. Pores (14) may not be formed. It has been found that this reason is the cause of the above problem.

An object of the present invention is to provide a method for solving the above problems and producing a breathable adhesive tape or sheet having excellent ventilation performance.

(Means for Solving the Problems) A method for producing a breathable adhesive tape or sheet according to the present invention includes applying an organic solvent solution of an adhesive to the surface of a releasable sheet to form an adhesive solution layer. While the layer is in an undried state, a predetermined amount of water is sprinkled on the surface of the pressure-sensitive adhesive solution layer in the form of droplets and then dried, and then the resulting dry pressure-sensitive adhesive layer is applied to a breathable base material. In the method for producing a breathable adhesive tape or sheet by laminating the adhesive tape or sheet, the method is characterized in that the above-mentioned spraying of the predetermined amount of water is carried out in two or more stages.

In the above, the reason why the predetermined amount of water is sprayed in two or more stages is as follows. In other words, if a predetermined amount of water is sprayed in two or more stages, the amount of water during the -degree spraying will be smaller, so the number of sprayed water droplets will also be reduced, making it difficult for the water droplets to condense together in the air. The particle size of each water droplet remains small. Moreover, since the particle size of the water droplets adhering to the adhesive solution layer is small, even if these water droplets sink into the surface of the adhesive solution layer and coalesce before forming a recess, no coarse water droplets are formed. Then, before the next stage of spraying, the previously sprayed water droplets sink from the surface of the adhesive solution layer and form a depression, so that the water droplets that were sprayed in the next stage sink onto the first one of the water droplets. Fallen objects coalesce with this, but other objects coalesce and form their own recesses. Therefore, the recesses formed by the water droplets adhering to the surface of the adhesive solution layer become smaller, the number of recesses increases, and the recesses are distributed at a higher density. As a result, the air holes formed in the dried stone agent layer by subsequent drying are also formed at a high density, and the total area of the air holes in a predetermined range becomes sufficiently large. Moreover, if the recesses are small due to water droplets adhering to the adhesive solution layer, air holes will be reliably formed by subsequent drying.

The interval between each stage of water spraying should preferably be at least 1 second.

If the interval is too short, the next water droplet will be sprayed before the previously sprayed water droplet sinks to the surface of the adhesive solution layer and forms a depression, and these will coalesce to form coarse water droplets. This is because there is a fear.

The size of the water droplets sprayed at each stage is preferably within the range of 10 to 50 μm, for example when sprayed from a spray gun. In this way, even if they coalesce in the air, the maximum particle size will be 100 μm or less, and the maximum particle size will be 30 μm or less on the surface of the adhesive solution layer (= after one adhesion).
This is because it is 0 μm or less. In addition, the total amount of water sprayed is
It is preferable to set the amount to be about 300 g/rrr, which is larger than the amount of spraying when conventionally carried out in one step. If the total amount of water sprayed is the same as when spraying in one stage as in the past, when water is sprayed in two or more stages, the amount of water in each spraying stage will be smaller and the water droplets will be smaller. Because it's too much.

In addition, as for the release sheet in the above, any material can be used as long as it has a release function for the adhesive, but it is typically preferable to use a so-called release paper treated with adhesive. . Examples of other releasable sheets include steel belts, rotating drums, and the like.

As the adhesive, a rubber adhesive, a synthetic resin adhesive, or the like is used. Suitable rubber-based adhesives include natural rubber or synthetic rubber, tackifying resins such as rosin-based, terpene-based, petroleum-based, etc., and softeners such as various oils dissolved in a solvent such as n-hexane. used for. Also,
As a synthetic resin adhesive, for example, the main monomer is an acrylic ester such as butyl acrylate, 2-ethylhequinyl acrylate-1, isononyl acrylate, etc.
This and acrylic acid, acrylamide, N-vinyl-2-
Acrylic adhesives obtained by copolymerizing polar monomers such as pyrrolidone and other monomers such as acrylic esters, methacrylic esters, styrene, and vinyl acetate are preferably used. Furthermore, other adhesives such as polyvinyl ether adhesives and polyisobutyl adhesives can also be used.

The organic solvent solution of the adhesive mentioned above is one in which these adhesive components are dissolved in an organic solvent such as ethyl acetate, toluene, cyclohexane, n-hexane, a mixed solution of C1 to C7 alkanes, etc. These tapes have already been used in known cellophane tapes, craft tapes, and the like. The viscosity of the organic solvent solution is 500-6
000 cps is preferable.

Various known methods, such as a roll coater method, a knife coater method, and an extrusion lip method, can be used to apply the organic solvent solution of the adhesive onto the releasable sheet. The thickness of the applied thickening agent solution layer is preferably within the range of 100 to 200 μm.

Drying after spraying water droplets must be done at a temperature of 100°C or higher, and at a wind speed of 3m.
It is best to do this by blowing hot air at a speed of less than /second for about 60 seconds (subtract -1).

Examples of the breathable base material include woven fabrics, nonwoven fabrics, paper, fabrics, open-cell foam sheets, and non-breathable base materials such as synthetic resin sheets with many fine holes formed therein.

(Function) In the present invention, since a predetermined amount of water is sprayed in two or more stages, condensation of water droplets in the air during each spraying process is prevented, and water droplets on the surface of the adhesive solution layer are prevented. Cohesion can be suppressed.

Therefore, these water droplets form a high density of small depressions on the surface of the adhesive solution layer, and when these water droplets are dried, the areas where the depressions were formed in the dry adhesive layer obtained are reliably filled. Fine ventilation holes can be formed.

(Example) First, the principle of forming a dry adhesive layer having fine holes on a releasable sheet by the method of the present invention will be explained in the first part.
This will be explained with reference to the figures and FIG. In the following description, the same components as those shown in FIGS. 4 and 5 are given the same reference numerals.

FIG. 1 schematically shows the steps up to the formation of a dry adhesive layer having fine pores in the method of the present invention. In Fig. 1, a roll coater (1) is applied to the surface of a releasable sheet (10).
After forming the adhesive solution layer (11), while the adhesive solution layer (11) is in an undried state, a releasable sheet (10) is moved onto the surface of the adhesive solution layer (11). Water is sprayed in the form of droplets using a plurality of spray guns (2) (8), for example, two spray guns (8) arranged at predetermined intervals in the direction, and then fed into the drying device (4).
), a dry adhesive layer (1, 1B) having fine ventilation holes is obtained. The state of water droplets on the surface of the adhesive solution layer (11) before being dried is
As shown in FIG. While the adhesive solution layer (11) formed on the surface of the releasable sheet (10) is in an undried state, first spray the adhesive solution layer (11) using the first spray gun (2) at the rear in the moving direction. When water is sprinkled in the form of droplets on the surface of a surface, the number of water droplets is small, so the water droplets condense together in the air and do not form large droplets. Therefore, as shown in FIGS. 2(a) and (b), the water droplets (5) attached to the surface of the adhesive solution layer (11) are also small.
Even if these coalesce before sinking to the surface of the adhesive solution layer (11), coarse water droplets will not be formed. and,
This sinks into the adhesive solution layer (11) and forms fine depressions (6) on its surface. Next, the adhesive solution layer (11
) When water is sprinkled in the form of water droplets on the surface of the pressure-sensitive adhesive solution layer (11), as in the above case, the water does not form into large droplets in the air, but falls onto the surface of the adhesive solution layer (11). Of the water droplets (7) sprayed by the second spray gun (3), those that fall on top of the previous water droplet (5) coalesce with this, but the other water droplets do not coalesce and, as above, Fine depressions (8) are formed on the surface of the adhesive solution layer (11). Therefore, on the surface of the adhesive solution layer (11),
), minute recesses (6) and (8) are formed at high density.

Thereafter, when drying is performed using the drying device (4), the recess (6) (
By tearing off the bottom of 8), each recess (B) (8
) are formed with micro ventilation holes smaller than the ventilation holes (14) formed by the conventional method, and the viscosity of the adhesive is increased to a desired viscosity. In this way, a dry adhesive layer (11B) in which fine ventilation holes are formed at a high density is formed.

Next, more specific examples of the present invention and some comparative examples to be compared therewith will be listed, and the results of evaluation tests for each of the manufactured breathable adhesive tapes will be shown.

Example 1 Toluene solution of acrylic adhesive (solid content 50% by weight,
After forming an adhesive solution layer by applying 120 g/r& of viscosity 25,000 cps on a release paper moving at a line speed of 5 m/min, the surface of the adhesive solution layer is coated while the adhesive solution layer is still wet. Water was sprayed in the form of droplets using two spray guns arranged at an interval of 10 cm in the direction of movement of the release paper. The first spraying has a water volume of 75g/rr
r, and the particle size of water droplets immediately after spraying is 100 to 200μ.
m. The second spray is the amount of water or 75
g/r&, and the particle size of the water droplets immediately after spraying is 150~3
00 μm. Since the moving line speed of the release paper is 5 m/min and the spacing of the spray guns is 10 cm, the interval between the first spraying and the second spraying is 1.2 seconds.

Then, the adhesive solution layer was dried by blowing hot air at a temperature of 120° C. and a wind speed of 2 m/min for 3 minutes to obtain a dry adhesive layer. The dry adhesive layer thus obtained was laminated on a breathable base material (Tetron nonwoven fabric; manufactured by DuPont) to produce a breathable pressure-sensitive adhesive tape.

Example 2 The first spraying was done with the amount of water or 100g/rr? Therefore, the particle size of the water droplets immediately after spraying is 120 to 250 μm, and the second spraying is performed in an amount of 50 g/rr? A breathable adhesive tape was produced in the same manner as in Example 1, except that the particle size of water droplets immediately after spraying was 150 to 300 μm.

Example 3 The first spraying was carried out so that the amount of water was 100 g/rr and the particle size of the water droplets immediately after spraying was 120 to 250 μm, and the second spraying was performed when the amount of water was 100 g/rr. ? A breathable adhesive tape was produced in the same manner as in Example 1, except that the particle size of water droplets immediately after spraying was 200 to 350 μm.

Comparative Example 1 A breathable adhesive tape was produced in the same manner as in Example 1, except that water was sprayed in one step so that the amount of water was 150 g/r1f and the particle size was 300 to 800 μm.

Comparative Example 2 Spraying water with an amount of 200 g/rr? A breathable adhesive tape was produced in the same manner as in Example 1 except that the particle size was 500 to 1000 μm in one step.

(Evaluation Test) The air permeability of the air permeable adhesive tapes manufactured in Examples 1 to 3 and Comparative Examples 1 to 2 above was tested. The air permeability test was conducted based on JISP8117 by measuring the air permeability with a densometer (the time it takes for 300 cc of air to pass through a 6.45 c♂ hole). These results,
Table 1 shows the conditions for spraying water droplets.

(The following is a blank space) (Effects of the Invention) According to the method of the present invention, as described above, fine ventilation holes can be formed in a dried adhesive layer at a high density. Therefore, it is possible to produce a breathable adhesive tape or sheet having excellent breathability.

[Brief explanation of the drawing]

Figure 1 is a schematic explanatory diagram showing the method of forming a dry adhesive layer with fine pores on a releasable sheet by the method of the present invention, and Figure 2 (a) is after the first stage of water spraying. thickening agent solution
Partially enlarged plan view showing the state of water droplets in the l & layer surface curve, 2nd
Figure (b) is also a partially enlarged vertical sectional view, Figure 3 (a) is a partially enlarged plan view showing the state of water droplets on the surface of the adhesive solution layer after the second stage of water dispersion, and Figure 3 ( b) is a partially enlarged vertical cross-sectional view, FIG. 4 is a schematic explanatory view of the principle of forming a dry adhesive layer with ventilation holes in the conventional method without showing the process order, and FIG. 5(a) is a conventional method. Fig. 5(b) = 19- is a partially enlarged plan view showing the state of water droplets on the surface of the adhesive solution layer after water has been sprayed by the method described above. (5)(7)・Water droplets, (10)・Releasable sheet, (I
I)...Adhesive solution layer. Patent applicant: Sekisui Chemical Co., Ltd. JP-A-4-E93b3 U/)

Claims (1)

[Scope of Claims] An organic solvent solution of an adhesive is applied to the surface of a releasable sheet to form an adhesive solution layer, and while the adhesive solution layer is in an undried state, the surface of the adhesive solution layer is A method for producing a breathable adhesive tape or sheet by spraying a predetermined amount of water in the form of water droplets, drying the droplets, and then laminating the obtained dry adhesive layer on a breathable base material, A method for producing a breathable adhesive tape or sheet, characterized in that the above predetermined amount of water is sprayed in two or more stages.