JP2014076077A - Design coat application system and application method in body fluid absorbent product manufacturing line - Google Patents

Abstract

PROBLEM TO BE SOLVED: To substantially eliminate discomfort caused by contact between a solid matter and the skin due to hardening of a hot melt adhesive by decreasing the application amount of the hot melt adhesive in a mass-production type hot melt adhesive application system in which a substrate is traveled at high speed in a body fluid absorbent product manufacturing line, and to improve feeling in using a product by heightening the flexibility of the body fluid absorbent product.SOLUTION: In a body fluid absorbent product manufacturing line including a process of forming a hot melt adhesive coating layer on the surface of a high-speed traveling substrate, the manufacturing line includes a design coat application step of applying a hot melt adhesive supplied to an irregular plate of a design roller to the surface of the high-speed traveling substrate. In the design coat application step, a number of belt-like application layers orthogonal to the substrate transport direction are formed by a number of belt-like projecting surfaces of the irregular plate of the design roller.

Description

The present invention relates to a design coat coating system for forming a hot-melt adhesive coating layer having a predetermined pattern in a predetermined range on a substrate running at high speed in a body fluid absorption production line.

When manufacturing a body fluid absorbing product (such as naphthin or paper diaper), a hot melt adhesive coated surface is formed on the surface of a base material of a water-impermeable sheet (back sheet) in order to fix the polymer absorbent body internally.
In forming the hot melt adhesive application surface, the application line is speeded up to enable low-cost production of body fluid absorption products (such as nafkin and paper diapers) by a mass production system.

Japanese Patent Application Laid-Open No. 6-198239, “Spray coating apparatus for curtain waiver adhesive”

Patent Document 1 is a patented invention by the applicant of the present application, but the application surface of the hot melt adhesive is continuous in the conveying direction, and the application pattern can be appropriately selected by selecting the comb-like grooves of the shim plate. The application range can be selected in the direction orthogonal to the transport direction).
In addition, the hot melt adhesive supply can be controlled in the longitudinal direction (conveyance direction) by solenoid valve ON / OFF control, but the coating line is traveling at high speed, so it is not possible to intermittently connect with a very short length. . That is, the response limit of the solenoid valve is 0.005 seconds to 0.007 seconds, the traveling speed of the coating line is 300 m / min, and the intermittent coating length is 25 mm to 35 mm. It is impossible to form a coating length of 1 to 10 mm (1 cm) (that is, a strip-shaped coating layer).

Therefore, the present invention is a hot melt adhesive application system (forms a hot melt adhesive application surface on the surface of a sheet-like base material) of a body fluid absorption production line, and the base material is run at a high speed to produce a large amount of diapers and the like. In the low-cost production by the production method, it is an object to eliminate the above-mentioned problems, reduce the amount of hot melt adhesive applied to the coating range, and increase the flexibility of the product.

The first invention of the present application is a humor absorbent product manufacturing line including a step of forming a hot melt adhesive coating layer on the surface of a substrate that travels at a high speed, and is supplied to the surface of the substrate that travels at a high speed on the concavo-convex plate of the design roller. Including a design coat application step of applying a hot melt adhesive, and in the design coat application step, a plurality of strip-shaped coating layers in the direction orthogonal to the substrate transport direction are formed by a number of strip-shaped convex surfaces of the concavo-convex plate of the design roller. It is characterized by forming.
The second invention of the present application is the invention according to claim 1, wherein, in fixing the polymer absorbent to the nonwoven fabric sheet, the hot melt adhesive coating layer between the nonwoven fabric sheet and the polymer absorbent is coated in a band at the center. The ratio of the blank part between the layers is set larger than the ratio of the blank part between the strip-shaped coating layers in the peripheral part.

The third invention of the present application is a humor absorbent product manufacturing line including a step of forming a hot melt adhesive coating layer on the surface of a substrate that travels at a high speed. And a design roller coating apparatus for applying a hot melt adhesive, and a concavo-convex plate of the design roller is formed with a number of belt-like convex surfaces.

In the present invention, in the body fluid absorption production line, in the mass production hot melt adhesive application system in which the base material is run at a high speed, there is a blank line between the application lines, so that the amount of hot melt adhesive applied The product has the effect of substantially eliminating the uncomfortable feeling caused by the contact between the solid and the skin due to the curing of the hot melt adhesive.
The flexibility of the body fluid absorbent product can be increased to improve the feeling of use of the product. It also has the effect of improving the water permeability of the product.

1 shows a design roller coating apparatus according to an embodiment of the first and third inventions of the present application, wherein FIG. A is an explanatory view showing the outline thereof, FIG. B is a plan view shown by arrow I, and FIG. C is a longitudinal section shown by arrow B Plan view. FIG. 3 shows a concavo-convex plate of a design roller, in which FIG. A is a plan view and FIG. FIG. 2 is an explanatory diagram showing the outline of the body fluid absorption product production line that is continued from FIG. Explanatory drawing of the hot-melt-adhesive application layer in a bodily fluid absorption product manufacturing line. Explanatory drawing of the hot-melt-adhesive application layer of this invention 2nd invention.

In a body fluid absorption product production line including a step of forming a hot melt adhesive coating layer on the surface of a substrate that runs at high speed, the hot melt adhesive supplied to the uneven plate of the design roller is applied to the surface of the substrate that runs at high speed. A design roller coating device for coating is provided.
A large number of belt-like convex surfaces are formed on the concavo-convex plate of the design roller.
Regarding the concavo-convex plate of the design roller, a plurality of straight belt-like convex surfaces in the transverse direction are continuously arranged at predetermined intervals.
The space between the straight belt-like convex surfaces is set to an area that is at least three times that of the straight belt-like convex surfaces.
A large number of band-shaped application surfaces in the direction orthogonal to the substrate transport direction are formed by the large number of band-shaped convex surfaces of the uneven plate of the design roller.

In a body fluid absorption product production line including a step of forming a hot melt adhesive coating layer on the surface of a substrate that runs at high speed, the hot melt adhesive supplied to the uneven plate of the design roller is applied to the surface of the substrate that runs at high speed. Including the design coat application process to apply,
In the design coat application step, a large number of strip-shaped coating layers in the direction orthogonal to the substrate transport direction are formed by the numerous strip-shaped convex surfaces of the concavo-convex plate of the design roller.
In fixing the polymer absorber to the nonwoven fabric sheet, the ratio of the blank portion between the belt-like coating layers in the central portion of the hot melt adhesive coating layer between the nonwoven fabric sheet and the polymer absorber, It is larger than the ratio of the blank part between the belt-like coating layers.

Referring to FIG. 1, a part of a production line (high-speed running application line) for body fluid absorbent products (paper diapers, sufkin, etc.) is shown, and a high-speed bonding process between a non-woven sheet A and a synthetic resin film (back sheet) B A case where the present invention is applied will be described.

  The non-woven sheet A from the non-woven sheet roll a is supplied between the design roll 2 and the pressing roll 3 of the design coating apparatus between the design roll 2 and the pressing roll 3 of the design coating apparatus 1.

The design roll 2 of the design coating apparatus 1 has a silicon rubber lithographic plate 4 attached to the surface, and hot melt adhesive h is supplied to the convex surface of the silicon rubber lithographic plate 4 from hot melt supply rolls 5 and 6.

As shown in FIG. 2, the convex surface of the silicon rubber lithographic plate 4 is formed with a large number of strip-like convex surfaces 7 in the transverse direction at equal intervals.

As shown in FIG. 1 (c), the nonwoven fabric sheet A being transported is formed with a plurality of strip-shaped coating layers 8 in the transverse direction at equal intervals, as shown in FIG. A coating layer H is formed.

After that, it is sent to the next process through the pressure feed rolls 9 and 9.

At that time, the non-woven sheet A supplied from the non-woven sheet roll a and the synthetic resin film (back sheet) B supplied from the back sheet roll b are bonded to each other through the belt-shaped coating layer 8 so that the intermediate material C is formed. Complete.

The invention of the present application selects a coating pattern by selecting a concavo-convex plate of a design roller using a design roller coating device when forming a hot melt adhesive coating layer on the surface of a substrate traveling at high speed in a body fluid absorption product production line. In the embodiment shown in FIG. 1 and FIG. 2, a number of strip-shaped coating surfaces 8 in the direction perpendicular to the substrate transport direction are 1 mm to 3 mm wide, and there are blanks between the strip-shaped coating surfaces 8. The part k is 3 to 10 mm.
In the body fluid absorption product production line, under the condition of the coating film thickness (for example, 0.01 mm) of the hot melt adhesive coating layer formed on the surface of the base material (nonwoven fabric), It has been confirmed that the product has a blank portion k sufficient to impart flexibility to the product and has a sufficient adhesive force as a hot melt adhesive coating layer.

Next, referring to FIG. 3, a polymer molded product D for absorbing body fluid is applied to the intermediate material C completed from the first step by bonding the nonwoven fabric sheet A and the synthetic resin film (back sheet) B in FIG. The second and subsequent steps for bonding will be described.

In the same way as in FIG. 1, a plurality of strip-shaped coating layers 8 in the transverse direction are formed at equal intervals on the nonwoven fabric sheet A of the intermediate material C by the design roll 2 of the design coating apparatus 1A to form the hot melt adhesive coating layer H. Is done.

The polymer molded product D supplied by the polymer molded product supply device 10 is bonded to the nonwoven fabric sheet A of the intermediate material C.

On the upper surface of the intermediate material C to which the polymer molded product D is bonded, a plurality of strip-shaped coating layers 8 in the transverse direction are formed at equal intervals by the design roll 2 of the design coating apparatus 1B to form a hot melt adhesive coating layer HH. Bond the nonwoven sheet E to be made.

Next, a synthetic resin film (top sheet) F is supplied from the top sheet roll f, and a plurality of strip-shaped coating layers 8 in the transverse direction are formed on the top sheet F by the design roll 2 of the design coating apparatus 1C. An adhesive application layer HH is formed. The top sheet F is bonded to the semi-finished product including the polymer molded product D through the hot melt adhesive coating layer HH.

After that, the body fluid absorber product (paper diaper, sufkin, etc.) is completed through a cutting process.

As shown in FIG. 4, the hot-melt adhesive coating layer HH is formed by forming a plurality of strip-shaped coating layers 8 in the transverse direction at equal intervals. For the second invention of the present application, FIG. 5 (a) And as shown in (b), the space | interval part k is increased by making the space | interval of a center part large.

That is, (a) in FIG. 5 shows that when the width of the blank portion k is increased at the central portion where the body fluid absorber D is present, FIG. The cases where the coating layer 8a is added are shown.

In the present invention, the belt-like application surface 8 is all orthogonal to the substrate transport direction, and the blank portion k exists between them, so that the belt-like application surface 8 is independent in the longitudinal direction. Therefore, the body fluid absorption product can be bent in the longitudinal direction, and the length in the longitudinal direction can be freely changed. Therefore, the flexibility of the product is ensured.

In the second invention of the present application, with respect to the hot melt adhesive coating layer HH between the nonwoven fabric sheet and the polymer absorbent body, the ratio of the blank portion between the strip coating layers in the center is determined by the ratio of the strip coating layer in the peripheral portion. If it is larger than the ratio of the blank space between each other (see (b) and (c) in Fig. 5), the flexibility of the polymer absorber is increased and the product layer is reduced in the number of hot melt adhesive coating layers. The water absorption can be increased.

The present invention contributes to the promotion of sales of this type of product by increasing the commercial value of body fluid absorbent products (such as disposable diapers and sufkins).

A Non-woven sheet A and B Synthetic resin film (back sheet) B
C Intermediate material D Polymer molded product for absorbing body fluid E Non-woven sheet F Synthetic resin film (top sheet)
H Hot melt adhesive coating layer k Blank area
1 Design coat equipment
2 Design roll
4 Silicon rubber lithographic plate 5 Hot melt supply roll
6 Hot melt supply roll
7 Band-shaped convex surface
8 Strip coating layer

The present invention relates to a design coat coating system for forming a hot melt adhesive coating layer having a predetermined pattern in a predetermined range on a substrate running at high speed in a body fluid absorption product manufacturing line.

Claims (5)

In the body fluid absorbent product production line including the step of forming a hot melt adhesive coating layer on the surface of the substrate that runs at high speed,
Including a design coat application process for applying the hot melt adhesive supplied to the concavo-convex plate of the design roller on the surface of the substrate that runs at high speed,
The design coat application type hot melt adhesive characterized in that, in the design coat application step, a number of band application layers in the direction orthogonal to the substrate transport direction are formed by a number of belt-like convex surfaces of the concavo-convex plate of the design roller. Application method The design coat application type hot melt adhesive application method according to claim 1, characterized in that the width of the plurality of belt-like application layers is 1 mm to 3 mm. In the body fluid absorbent product production line including the step of forming a hot melt adhesive coating layer on the surface of the substrate that runs at high speed,
Including a design coat application process for applying the hot melt adhesive supplied to the concavo-convex plate of the design roller on the surface of the substrate that runs at high speed,
In the design coat application step, by forming a large number of strip-shaped coating layers in the direction orthogonal to the substrate transfer direction, with a large number of strip-shaped convex surfaces of the uneven plate of the design roller,
In fixing the polymer absorber to the design coat application type hot nonwoven fabric sheet, about the hot melt adhesive coating layer between the nonwoven fabric sheet and the polymer absorber,
The ratio of the blank part between the belt-like coating layers in the central part is larger than the ratio of the blank part between the belt-like coating layers in the peripheral part,
Design coat application type hot melt adhesive application method. In the body fluid absorbent product production line including the step of forming a hot melt adhesive coating layer on the surface of the substrate that runs at high speed,
Includes a design coat application device that applies hot melt adhesive supplied to the concavo-convex plate of the design roller on the surface of the substrate that runs at high speed,
The design roller coating system is characterized in that a number of belt-like convex surfaces are formed on the design roller concavo-convex plate. 4. The design coat application system according to claim 3, wherein the concavo-convex plate of the design roller is configured by continuously arranging a plurality of straight belt-like convex surfaces in the transverse direction at predetermined intervals.

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