JP2022501086A - Tissue and its manufacturing method - Google Patents

Abstract

In the tissue and its manufacturing method, the first embossing layer and the second embossing layer are composited by a roller and coated with a binder, extruded from each other and inlaid, and the binder is applied. The embossing layer and the second embossing layer are attached to the third embossing layer, and a part of the first embossing layer low protrusions is supported by the second embossing layer protrusions, and a part of the first embossing layer. The low protrusions are supported by the surface between the second embossed layer protrusions to maximize the thickness of the product, which is 52% thicker than the traditional three-layer embossed process structure. The first embossed layer high protrusion in the first embossed layer penetrates the second embossed layer and the third embossed layer, and finally three different embossed layers are pasted and locked together to make one strong. It forms a three-dimensional structure, which greatly improves the physical performance of the tissue product in terms of thickness, tactile sensation, absorbability, and the like. [Selection diagram] FIG. 8

Description

This application was filed with the Chinese Patent Office on August 16, 2019, claiming the priority of the Chinese patent application with the application number 201910760175.5 and the invention name "Tissue and Manufacturing Method", all of which. By incorporating the contents of, it is combined with this application.

The present invention relates to a tissue and a method for producing the same, and specifically, is a method for producing a multilayer product.

Tissues are generally made from natural, non-polluting raw materials such as wood pulp, bamboo pulp, cotton pulp and straw pulp, and if classified according to application, facial tissue, napkin base paper, paper handkerchiefs, wet It includes tissue, paper towels, kitchen paper, etc., and can be divided into single layer, two layers, and multiple layers according to the structure of the tissue. Therefore, each layer of pulp is adhered by embossing, which affects the physical performance such as tissue thickness, tactile sensation (surface flexibility), and absorbency (fluffy and flexible) during the embossing process. Is a key point in papermaking technology that affects tissue performance.

The structure of knurled toilet paper currently on the market is mainly produced by the knurling process and the adhesion of the knurled toilet paper (embossed composite structure). Conventional knurled toilet paper is mainly 2-pass knurled, but conventional known disclosed 3-pass knurled toilet paper is process-constrained, so conventional 3-pass knurled structure products are 2-pass knurled products. The predominance is not clear.

CN201510439764.5 is a method for producing multi-layer embossed toilet roll paper, which unwinds raw paper waiting for embossing, unwinds raw paper, and combines one layer or one or more layers of surface layer raw paper into fine embossed roller pairs. Fine embossing is obtained by guiding and pressing fine embossing, and the fine embossing of the surface layer is combined, and the obtained fine embossing paper and one layer of core layer raw material paper are combined and guided to a coarse embossing roller pair to obtain coarse embossing. The rough embossing of the surface layer and the core layer, which obtains the coarse embossed paper, and the obtained coarse embossed paper are guided to a roller pair consisting of a water rubber roller coated with a binder and a coarse embossed steel roller, and the obtained coarse embossed paper is obtained. A preparation coarse embossed paper is obtained by applying a binder to the concave surface on the core layer side of the embossed paper. To obtain the bottom layer fine embossed paper, rewind the bottom layer fine embossed paper, the obtained preparation coarse embossed paper, and the obtained bottom layer fine embossed paper, and use the coarse embossed concave surface of the prepared coarse embossed paper and the concave surface of the bottom layer fine embossed paper. Includes rewinding and packaging to obtain a multi-layer embossed toilet roll paper in which both the surface layer convex surface and the bottom layer convex surface are relatively provided, which are adhered and connected in the rewinding process and packaged.

The above plan realizes 3-pass embossing of a surface layer, a core layer, and a bottom layer, but due to process restrictions, the superiority of the conventional 3-pass knurled structure product over the 2-pass knurled product is not clear. Since the surface layer has been embossed twice, the fiber bonding points in the toilet paper are largely tensile-broken and destroyed, so that the strength of the surface layer toilet paper is low, and when it gets wet, it easily rots and the user experience is deteriorated. It will be. The structure formed after joining the surface layer and the core layer embossed twice cannot greatly increase the thickness structure of the product, and the change in absorbency and texture is not clear.

In view of this, the present invention provides a tissue and a method for producing the same, for solving a problem existing in the prior art.

The present invention includes a first embossing layer, a second embossing layer, and a third embossing layer.
The first embossed layer low protrusion and the first embossed layer high protrusion are embossed in the first embossed layer, and the first embossed layer low protrusion has the first embossed layer low protrusion width and the first embossed layer low protrusion height. The first embossed layer high protrusion includes the first embossed layer high protrusion width and the first embossed layer high protrusion height.
The second embossed layer has a second embossed layer protrusion and a plane between the second embossed layer protrusions, and the second embossed layer protrusion includes a second embossed layer protrusion width and a second embossed layer protrusion height. The embossed layer inter-projection plane has a second embossed layer inter-projection plane width.
The third embossed layer is embossed with a third embossed layer protrusion and a plane between the third embossed layer protrusions, and the third embossed layer protrusion is a tissue including a third embossed layer protrusion width and a third embossed layer protrusion height. And,
The height of the first embossed layer protrusion is larger than the height of the second embossed layer protrusion, and the height of the second embossed layer protrusion is equal to or higher than the height of the third embossed layer protrusion.
The first embossed layer low protrusion width is equal to or less than the second embossed layer protrusion width or the plane width between the second embossed layer protrusions.
The density of the first embossed layer low protrusions is higher than the density of the second embossed layer protrusions.
In the process in which the first embossing layer and the second embossing layer are combined by a roller, the first embossing layer high protrusion and the second embossing layer protrusion are extruded and inlaid with each other, and a binder is applied to the first embossing layer. The first embossed layer low protrusion of the portion is supported by the second embossed layer protrusion.
Alternatively, in the process in which the first embossing layer and the second embossing layer are combined by a roller, the high projections of the first embossing layer and the plane between the projections of the second embossing layer are extruded and inlaid with each other, and the binder is formed. Once applied, some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane.
The first embossing layer and the second embossing layer after the binder is applied in a composite manner provide a tissue to be composited with the third embossing layer by a roller.

Preferably, the first embossing layer and the second embossing layer after being composited and coated with the binder are composited with the third embossing layer by a roller, extruded and inlaid with each other, and the binder is applied. The first embossed layer high protrusion and the second embossed layer protrusion are adhered to the third embossed layer inter-projection plane, and the third embossed layer projection and the second embossed layer inter-projection plane are extruded and inlaid with each other. Will be done.

Preferably, the first embossing layer and the second embossing layer after being composited and coated with the binder are composited with the third embossing layer by a roller, extruded and inlaid with each other, and the binder is applied. The first embossed layer high protrusion and the second embossed layer inter-projection plane are adhered to the third embossed layer inter-projection plane, and the third embossed layer projection and the second embossed layer projection are extruded from each other and inlaid. Will be done.

Preferably, the first embossing layer, the second embossing layer, and the third embossing layer are all one layer, two layers, or multiple layers.

Preferably, the first embossed layer low protrusion is a pressure point, and the first embossed layer high protrusion is a combination figure of a dotted line.

Preferably, the second embossed layer projection has a wave structure, or the second embossed layer projection is a pressure point.

Preferably, the wave structure is a wrinkle, a ripple contour, or a wavy contour.

Preferably, the binder is glue, water or a natural extract. The binder is colored or scented, or colorless and tasteless.

In this application, the first embossing layer, the second embossing layer, and the third embossing layer are further formed by the embossing roller.
The first embossed layer and the second embossed layer are composited by a roller and coated with a binder, and the first embossed layer high protrusion and the second embossed layer protrusion are extruded and inlaid with each other and the binder is applied. Is applied, and some of the first embossed layer low protrusions are supported by the second embossed layer protrusions, and some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane.
The first embossing layer and the second embossing layer, which are extruded and inlaid with each other and coated with a binder, are attached to the third embossing layer, and the first embossing layer high protrusion and the second embossing layer are attached. The protrusion is adhered to the third embossed layer inter-projection plane, and the third embossed layer projection and the second embossed layer inter-projection plane are extruded and inlaid with each other to provide a method for producing a tissue.

In this application, the first embossing layer and the third embossing layer are further formed by the embossing roller.
The first embossing layer and the second embossing layer are composited by a roller and coated with a binder, and the first embossing layer high projections and the second embossing layer interprojection planes are extruded and inlaid with each other. A binder is applied, and some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane, and some of the first embossed layer low protrusions are supported by the second embossed layer protrusions. Being done
The first embossing layer and the second embossing layer, which are extruded and inlaid with each other and coated with a binder, are attached to the third embossing layer, and the first embossing layer high protrusion and the second embossing layer are attached. The inter-projection plane is adhered to the inter-projection plane of the third embossed layer, and the third embossed layer projection and the second embossed layer projection are extruded and inlaid with each other to provide a method for producing a tissue.

As described above, the present invention provides a tissue and a method for producing the same, and by limitation to a three-layer embossed pattern, the first embossed layer high protrusion and the second embossed layer protrusion or the second embossed layer protrusion plane. Are extruded and inlaid with each other and coated with a binder, and in the compounding process of the first embossing layer and the second embossing layer, the embossing marks of the first embossing layer high protrusions are left on the surface of the second embossing layer. Further, the binder is applied to the trace, extruded by a roller with a constant force, and then bonded to the third embossing layer, and the density of the low protrusions of the first embossing layer is the density of the protrusions of the second embossing layer. Larger, some of the first embossed layer low protrusions are supported by the second embossed layer protrusions, and some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane of the product. The thickness is maximized, the product thickness is increased by about 52% compared to the traditional three-layer embossing process structure, and the first embossing layer and the third embossing layer are mainly embossed with a constant density. Since it is a point and the density of the embossing points is larger than the density of the second embossing layer, a similar touch feel is obtained, and the high protrusions of the first embossing layer in the first embossing layer are the second embossing layer and the third. Penetrating the embossed layer and finally pasting and locking three different embossed layers together to form one strong three-dimensional structure, thereby physics in terms of thickness, tactile sensation, absorbency, etc. of the tissue product. Greatly improve performance.

In order to more clearly explain an embodiment of the present invention or a technical proposal in the prior art, the drawings that need to be used in the description of the embodiment or the prior art are briefly introduced below, and as is clear, the following. The drawings in the description are only embodiments of the present invention, and for those skilled in the art, other drawings may be obtained depending on the drawings provided, provided that no creative labor is spent.
It is a schematic diagram of the 3-pass embossing of the prior art. It is a schematic diagram of the 3-pass embossing of the prior art. It is a schematic diagram of the 1st embossing layer. It is a schematic diagram of the 2nd embossing layer. It is a schematic diagram of the 3rd embossing layer. It is a decomposition schematic diagram of the 1st to 3rd embossing layers. It is a composite schematic diagram of the 1st and 2nd embossing layers. It is a composite schematic diagram of the 1st and 2nd embossing layers and the 3rd embossing layer after compounding. It is a schematic diagram of Example 1 of three-layer embossing. It is a schematic diagram of Example 2 of three-layer embossing. It is a schematic diagram of Example 3 of three-layer embossing.

The embodiments of the present invention provide a tissue and a method for producing the same, for solving a problem existing in the prior art.

Hereinafter, the technical proposals in the examples of the present invention are clearly and completely described, and as is clear, the described examples are only a part of the examples of the present invention, not all the examples. Based on the examples in the present invention, all other examples obtained without the person skilled in the art spending creative labor belong to the scope of protection of the present invention.

In order to explain the present invention in more detail, the tissue provided by the present invention and a method for producing the same will be specifically described below with reference to the drawings.

The embossed layer plane refers to the plane of the tissue layer before embossing, the embossed protrusion width refers to the width of the bottom surface of the protrusion formed after the embossed layer plane is embossed, and the embossed protrusion height refers to the embossed layer plane and after embossing. Refers to the distance between the formed bottom surface of the protrusions, and the embossed inter-embossed plane refers to the unembossed layer plane between the embossed protrusions.

As shown in FIG. 8, the tissue includes a first embossing layer 10, a second embossing layer 20, and a third embossing layer 30.
As shown in FIG. 3, the first embossed layer low protrusion 11, the first embossed layer high protrusion 12, and the first embossed layer plane 13 are embossed on the first embossed layer 10.
The first embossed layer low protrusion 11 includes a first embossed layer low protrusion width d11 and a first embossed layer low protrusion height h11, and the first embossed layer low protrusion width d11 is the width of the bottom surface of the protrusion formed after embossing. The first embossed layer low protrusion height h11 refers to the distance between the embossed layer plane and the bottom surface of the protrusion formed after embossing, and the first embossed layer low protrusion 11 is the left side of the first embossed layer low protrusion. The side 111, the right side 113 of the low protrusion of the first embossing layer, and the bottom surface 112 of the low protrusion of the first embossing layer are formed. The h11 is about 0.6 mm, the first embossed layer low protrusion width d11 is between 0.3 and 0.7 mm, the first embossed layer low protrusion left side 111, and the first embossed layer low protrusion right side 113. The one-sided gradient is about 25 to 35 degrees, and the density of the first embossed layer low protrusion 11 is generally between ^{40 and 80 points / cm 2.}

The first embossed layer high protrusion 12 includes a first embossed layer high protrusion width d12 and a first embossed layer high protrusion height h12, and the first embossed layer high protrusion 12 includes a first embossed layer high protrusion left side 121. The first embossed layer high protrusion 12 is composed of the right side 123 of the first embossed layer high protrusion and the bottom surface 122 of the first embossed layer high protrusion. The width d12 is generally between 0.4 and 1.6 mm, and the one-sided gradient of the first embossed layer high protrusion left side 121 and the first embossed layer high protrusion right side 123 is about 20 to 30 degrees. The height of the 1 embossed layer high protrusion height h12 is higher than the first embossed layer low protrusion height h11 by 0.3 to 1 mm.

As shown in FIG. 4, the second embossed layer 20 has a second embossed layer protrusion 21 and a plane 22 between the second embossed layer protrusions, and the second embossed layer protrusion 21 has a second embossed layer protrusion width d21 and a second. The second embossed layer protrusion 21 includes the two embossed layer protrusion height h21, and the second embossed layer protrusion 21 is composed of a second embossed layer protrusion left side 211, a second embossed layer protrusion right side 212, and a second embossed layer protrusion bottom surface 213. The embossed layer inter-projection plane 22 has a second embossed layer inter-projection plane width d22, the second embossed layer projection width d21 is generally between 0.4 and 1.6 mm, and the second embossed layer projection left side. The one-sided gradient of the side 211 and the right side 212 of the second embossed layer protrusion 212 is about 20 to 30 degrees, and the density of the second embossed layer protrusion 21 is generally about ^{10 to 60 points / cm 2.}
As shown in FIG. 5, the third embossed layer projection 31, the third embossed layer inter-projection plane 32, and the third embossed layer plane 33 are embossed on the third embossed layer 30, and the third embossed layer projection 31 is the third. The third embossed layer protrusion 31 includes the embossed layer protrusion width d31 and the third embossed layer protrusion height h31, and the third embossed layer protrusion 31 includes the third embossed layer protrusion left side 311, the third embossed layer protrusion right side 312, and the third embossed layer protrusion bottom surface 313. The third embossed layer protrusion height h31 is generally about 0.6 to 1.5 mm, and the size of the third embossed layer protrusion width d31 is generally between 0.3 and 1.6 mm. There, the one-sided gradient of the left side 311 of the third embossed layer protrusion and the right side 312 of the third embossed layer protrusion is about 25 to 35 degrees, and the density of the third embossed layer protrusion 31 is generally 30 to 80 points / cm ^2. Degree.

The first embossed layer protrusion height h12 is larger than the second embossed layer protrusion height h11, and the second embossed layer protrusion height h21 is equal to or higher than the third embossed layer protrusion height h31. The first embossed layer high protrusion 12 in one embossed layer 10 penetrates the second embossed layer 20 and the third embossed layer 30 to form discrete or continuous bonding points, and finally three different embossed layers are attached. Attach and lock together to form one strong three-dimensional structure,
The first embossed layer low protrusion width d11 is equal to or less than the second embossed layer protrusion width d21 or the second embossed layer inter-projection plane width d22, and the density of the first embossed layer low protrusion 11 is the second embossed layer protrusion. Higher than the density of 21, some of the first embossed layer low protrusions 11 are supported by the second embossed layer protrusions 21, and some of the first embossed layer low protrusions 11 are planes between the second embossed layer protrusions. Supported by 22, discrete or continuous support points are formed, the thickness of the product is maximized, and a part of the second embossed layer protrusion 21 is supported by the third embossed layer protrusion 31 and partly. The second embossed layer protrusion 21 is supported by the plane between the third embossed layer protrusions 32.

In the process in which the first embossing layer 10 and the second embossing layer 20 are combined by a roller, the first embossing layer high protrusion 12 and the second embossing layer protrusion 21 are extruded from each other and inlaid, and the binder is formed. The first embossed layer low protrusion 11 is coated and is supported by the second embossed layer protrusion 21.
Alternatively, in the process in which the first embossing layer 10 and the second embossing layer 20 are combined by a roller, the first embossing layer high projection 12 and the second embossing layer projection interplanar surface 22 are extruded and inlaid with each other. A binder is applied together with the first embossed layer low projections 11 to be supported by the second embossed layer interprojection plane 22.
The first embossing layer 10 and the second embossing layer 20 after being combined and coated with the binder are combined with the third embossing layer 30 by a roller.

The first embossing layer 10 and the second embossing layer 20 after being combined and applied with the binder are combined with the third embossing layer 30 by a roller, extruded from each other and inlaid, and the binder is applied. The first embossed layer high protrusion 12 and the second embossed layer protrusion 21 are adhered to the third embossed layer inter-projection plane 32, and the third embossed layer projection 31 and the second embossed layer inter-projection plane 22 are formed. They are pushed out and inlaid with each other.

The first embossing layer 10 and the second embossing layer 20 after being combined and applied with the binder are combined with the third embossing layer 30 by a roller, extruded from each other and inlaid, and the binder is applied. The first embossed layer high protrusion 12 and the second embossed layer inter-projection plane 22 are adhered to the third embossed layer inter-projection plane 32, and the third embossed layer projection 31 and the second embossed layer projection 21 They are pushed out and inlaid with each other.

The first embossing layer 10, the second embossing layer 20, and the third embossing layer 30 are all one layer, two layers, or multiple layers.

The first embossed layer low protrusion 11 is a pressure point, and the first embossed layer high protrusion 12 is a dotted line combination figure.

The second embossed layer protrusion 21 has a wave structure, or the second embossed layer protrusion 21 is a pressure point.

The wave structure is wrinkles, ripple contours, and wavy contours.

The binder 40 is glue, water or a natural extract, and the binder is colored, scented, or colorless and tasteless. The binder may be added depending on the specific tissue product in that it is colored, scented, or colorless and tasteless.

In this application, the first embossing layer 10, the second embossing layer 20, and the third embossing layer 30 are further formed by the embossing roller.
The first embossing layer 10 and the second embossing layer 20 are combined by a roller and coated with a binder 40, and the first embossing layer high protrusion 12 and the second embossing layer protrusion 21 are extruded and inlaid with each other. At the same time, the binder 40 is applied, a part of the first embossed layer low protrusion 11 is supported by the second embossed layer protrusion 21, and a part of the first embossed layer low protrusion 11 is the second. Supported by the embossed layer interprojection plane 22,
The first embossed layer 10 and the second embossed layer 20 to which the binder 40 is applied while being extruded and inlaid with each other are attached to the third embossed layer 30, and the first embossed layer high protrusion 12 and the second embossed layer 20 are attached to the third embossed layer 30. The second embossed layer projection 21 is adhered to the third embossed layer interprojection plane 32, and the third embossed layer projection 31 and the second embossed layer interprojection plane 22 are extruded and inlaid with each other. Provide a manufacturing method.

The present application further provides a method for producing a tissue in which a first embossing layer 10 and a third embossing layer 30 are formed by an embossing roller, and the second embossing layer 20 is a conventional already molded product.

The first embossing layer 10 and the second embossing layer 20 are combined by a roller and the binder 40 is applied, and the first embossing layer high projection 12 and the second embossing layer interprojection plane 22 are extruded from each other. The binder 40 is applied at the same time as being inlaid, the density of the first embossed layer low protrusions 11 is higher than the density of the second embossed layer protrusions 21, and some of the first embossed layer low protrusions 11 are said. Supported by the second embossed layer interprojection plane 22, a part of the first embossed layer low projection 11 is supported by the second embossed layer projection 21.
The first embossed layer 10 and the second embossed layer 20 to which the first embossed layer 10 and the second embossed layer 20 are extruded and inlaid with each other and coated with a binder are attached to the third embossed layer 30, and the first embossed layer high protrusions 12 and the said. The second embossed layer inter-projection plane 22 is adhered to the third embossed layer inter-projection plane 32, and the third embossed layer projection 31 and the second embossed layer projection 21 are extruded and inlaid with each other.

In the first embodiment, as shown in FIG. 9, the first embossing layer 10, the second embossing layer 20a, and the third embossing layer 30 are formed by the embossing roller.
The first embossed layer low protrusion 11, the first embossed layer high protrusion 12, and the first embossed layer plane 13 are embossed on the first embossed layer 10, and the first embossed layer low protrusion 11 is a pressure point, and the tactile sensation of embossing is felt. The first embossed layer high protrusion 12 is a combination of decorative lines and points, and the first embossed layer low protrusion 11 and the first embossed layer high protrusion 12 are both downward. ,
The second embossed layer 20a has a second embossed layer protrusion 21 and a plane 22 between the second embossed layer protrusions, and the second embossed layer protrusion 21 faces downward.
The third embossed layer projection 31, the third embossed layer interprojection plane 32, and the third embossed layer plane 33 are embossed on the third embossed layer 30, and the third embossed layer projection 31 faces upward.
The first embossing layer 10 and the second embossing layer 20a are combined by a roller and coated with a binder 40, and the first embossing layer high protrusion 12 and the second embossing layer protrusion 21 are extruded and inlaid with each other. At the same time, the binder 40 is applied, and in the compounding process of the first embossing layer 10 and the second embossing layer 20a, the embossing trace of the first embossing layer high projection 12 is left on the bottom surface 213 of the second embossing layer projection, and the embossing trace is left. The trace is coated with a binder, the width of the first embossed layer low protrusion d11 is equal to or less than the width of the second embossed layer protrusion d21, and the density of the first embossed layer low protrusion 11 is the second embossed layer protrusion. Higher than the density of 21, some of the first embossed layer low protrusions 11 are supported by the second embossed layer protrusions 21, and some of the first embossed layer low protrusions 11 are planes between the second embossed layer protrusions. Supported by 22
The first embossed layer 10 and the second embossed layer 20a, which are extruded from each other and inlaid and coated with the binder 40, are attached to the third embossed layer 30, and the first embossed layer high protrusions 12 and the second embossed layer 20a are attached. The second embossed layer protrusion 21 is adhered to the third embossed layer inter-projection plane 32, and the third embossed layer projection 31 and the second embossed layer inter-projection plane 22 are extruded and inlaid with each other, and the first embossing is performed. The first embossed layer high protrusion 21 in the layer 10 penetrates the second embossed layer 20a and the third embossed layer 30, and finally three different embossed layers are attached and locked together to form one strong three-dimensional structure. Forming, tissue.

In the second embodiment, as shown in FIG. 10, the first embossing layer 10, the second embossing layer 20b, and the third embossing layer 30 are formed by the embossing roller.
The first embossed layer low protrusion 11, the first embossed layer high protrusion 12, and the first embossed layer plane 13 are embossed on the first embossed layer 10, and the first embossed layer low protrusion 11 is a pressure point, and the tactile sensation of embossing is felt. The first embossed layer high protrusion 12 is a combination of decorative lines and points, and the first embossed layer low protrusion 11 and the first embossed layer high protrusion 12 are both downward. ,
The second embossed layer 20b has a second embossed layer protrusion 21 and a plane 22 between the second embossed layer protrusions, and the second embossed layer protrusion 21 faces upward.
The third embossed layer projection 31, the third embossed layer interprojection plane 32, and the third embossed layer plane 33 are embossed on the third embossed layer 30, and the third embossed layer projection 31 faces upward.
The first embossing layer 10 and the second embossing layer 20b are combined by a roller and the binder 40 is applied, and the first embossing layer high projection 12 and the second embossing layer interprojection plane 22 are extruded from each other. In the composite process of the first embossing layer 10 and the second embossing layer 20b, the embossing trace of the first embossing layer high protrusion 12 is left on the plane between the second embossing layer protrusions 22. The trace is coated with a binder, the width of the first embossed layer low protrusion d11 is equal to or less than the plane width d22 between the second embossed layer protrusions, and the density of the first embossed layer low protrusions 11 is the first. Higher than the density of the two embossed layer projections 21, some of the first embossed layer low projections 11 are supported by two second embossed layer projections d21 at the upper end of the second embossed layer interprojection plane 22 and are partially said. The first embossed layer low protrusion 11 is supported by the second embossed layer inter-projection plane 22 and is supported by the second embossed layer inter-projection plane 22.
The first embossed layer 10 and the second embossed layer 20b, which are extruded and inlaid with each other and coated with the binder 40, are attached to the third embossed layer 30, and the first embossed layer high protrusions 12 and the same. The second embossed layer inter-projection plane 22 is adhered to the third embossed layer inter-projection plane 32, and the third embossed layer projection 31 and the second embossed layer projection 21 are extruded and inlaid with each other, and the first embossing is performed. The first embossed layer high protrusion 21 in the layer penetrates the second embossed layer 20b and the third embossed layer 30, and finally three different embossed layers are attached and locked together to form one strong three-dimensional structure. Forming, tissue.

In Example 3, as shown in FIG. 11, the first embossing layer 10 and the third embossing layer 30 are formed by the embossing roller, and the second embossing layer 20c is a conventionally known product having wrinkles, ripple contours, and wavy contours. can be,
The first embossed layer low protrusion 11, the first embossed layer high protrusion 12, and the first embossed layer plane 13 are embossed on the first embossed layer 10, and the first embossed layer low protrusion 11 is a pressure point, and the tactile sensation of embossing is felt. The first embossed layer high protrusion 12 is a combination of decorative lines and points, and the first embossed layer low protrusion 11 and the first embossed layer high protrusion 12 are both downward. ,
The second embossed layer has a wave structure such as wrinkles, ripple contours, and wavy contours, has upward protrusions and downward protrusions, and the downward protrusions can be understood as the second embossed layer protrusions.
The second embossed layer protrusion is a wave structure formed during the papermaking process of wet paper, or the second embossed layer protrusion is an embossed pressure point formed by using an embossing machine on dry paper. There is a tissue.

The wave structure is a wrinkle, a ripple contour, and a wavy contour, and the processing method thereof may be formed by a conventional technique, for example, a technique such as TAD, NTT, QRT, ATMOS, or eTAD.

The third embossed layer projection 31, the third embossed layer interprojection plane 32, and the third embossed layer plane 33 are embossed on the third embossed layer 30, and the third embossed layer projection 31 faces upward.
The first embossing layer 10 and the second embossing layer 20c are combined by a roller and coated with a binder 40, and the first embossing layer high protrusion 12 and the second embossing layer protrusion 21 are extruded and inlaid with each other. At the same time, the binder 40 is applied, and in the composite process of the first embossing layer 10 and the second embossing layer 20c, the embossing trace of the first embossing layer high projection 12 is left on the bottom surface 213 of the second embossing layer projection, and the embossing trace is left. The trace is coated with a binder, the width of the first embossed layer low protrusion d11 is equal to or less than the width of the second embossed layer protrusion d21, and the density of the first embossed layer low protrusion 11 is the second embossed layer protrusion. The density of the first embossed layer low protrusion 11 is larger than the density of 21, and the first embossed layer low protrusion 11 is supported by the second embossed layer protrusion 21.
The first embossed layer 10 and the second embossed layer 20c, which are extruded and inlaid with each other and coated with the binder 40, are attached to the third embossed layer 30, and the first embossed layer high protrusions 12 and the same. The second embossed layer protrusion 21 is adhered to the third embossed layer inter-projection plane 32, and the third embossed layer projection 31 and the second embossed layer inter-projection plane 22 are extruded and inlaid with each other to form a first emboss. The first embossed layer high protrusion 21 in the layer penetrates the second embossed layer 20c and the third embossed layer 30, and finally three different embossed layers are attached and locked together to form one strong three-dimensional structure. Form.

As described above, the present invention provides a tissue and a method for producing the same, and by limitation to a three-layer embossed pattern, the first embossed layer high protrusion and the second embossed layer protrusion or the second embossed layer protrusion plane. Are extruded and inlaid with each other and coated with a binder, and in the compounding process of the first embossing layer and the second embossing layer, the embossing marks of the first embossing layer high protrusions are left on the surface of the second embossing layer. Moreover, the binder is applied to the trace, and after being extruded by a roller with a constant force, it is attached to the third embossing layer, and the density of the low protrusions of the first embossing layer is the density of the protrusions of the second embossing layer. Larger, some of the first embossed layer low protrusions are supported by the second embossed layer protrusions, and some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane of the product. The thickness is maximized, the product thickness is increased by 52% compared to the traditional three-layer embossing process structure, the third embossing layer is mainly constant density embossing dots, embossing points. Since the density of is generally similar to that of the first embossed layer, a similar touch feel is obtained, and the high protrusions of the first embossed layer in the first embossed layer penetrate the second embossed layer and the third embossed layer. Finally, three different embossed layers are pasted and locked together to form one strong three-dimensional structure, which greatly improves the physical performance of the tissue product in terms of thickness, tactile sensation, absorbency, etc. Up.

The above description is only a preferred embodiment of the present invention, and it should be pointed out that those skilled in the art may make slight improvements and modifications without departing from the principle of the present invention. Modifications should also be considered as the scope of protection of the present invention.

10 ... 1st embossing layer;
11 ... First embossed layer low protrusion;
d11 ... First embossed layer low protrusion width;
h11 ・ ・ ・ First embossed layer low protrusion height;
111 ・ ・ ・ First embossed layer Low protrusion left side;
113: Right side of the low protrusion of the first embossed layer;
112 ・ ・ ・ First embossed layer low protrusion bottom surface;
12 ... First embossed layer high protrusion;
d12 ... First embossed layer high protrusion width;
h12 ・ ・ ・ First embossed layer high protrusion width;
121 ・ ・ ・ Left side of the first embossed layer high protrusion;
122 ・ ・ ・ Right side of the high protrusion of the first embossed layer;
123 ・ ・ ・ First embossed layer high protrusion bottom surface;
13 ... First embossed layer plane;
20 ... Second embossed layer;
21 ... Second embossed layer protrusion;
d21 ... Second embossed layer protrusion width;
h21 ・ ・ ・ Second embossed layer protrusion height;
211 ... Left side of the second embossed layer protrusion;
212 ・ ・ ・ Right side of the second embossed layer protrusion;
213 ... The bottom surface of the second embossed layer protrusion;
22 ... Plane between projections of the second embossed layer;
d22 ... Plane width between projections of the second embossed layer;
23 ... Second embossed layer plane;
30 ... Third embossed layer;
31 ... Third embossed layer protrusion;
311 ・ ・ ・ Left side of the third embossed layer protrusion;
312 ... Right side of the third embossed layer protrusion;
313 ・ ・ ・ Third embossed layer protrusion bottom surface;
d31 ... Third embossed layer protrusion width;
h31 ・ ・ ・ Third embossed layer protrusion height;
32 ... Third embossed layer projection plane;
33 ... Third embossed layer plane.

Claims (10)

Including a first embossing layer, a second embossing layer, and a third embossing layer,
The first embossed layer low protrusion and the first embossed layer high protrusion are embossed in the first embossed layer, and the first embossed layer low protrusion has the first embossed layer low protrusion width and the first embossed layer low protrusion height. The first embossed layer high protrusion includes the first embossed layer high protrusion width and the first embossed layer high protrusion height.
The second embossed layer has a second embossed layer protrusion and a plane between the second embossed layer protrusions, and the second embossed layer protrusion includes a second embossed layer protrusion width and a second embossed layer protrusion height. The embossed layer inter-projection plane has a second embossed layer inter-projection plane width.
The third embossed layer is embossed with a third embossed layer protrusion and a plane between the third embossed layer protrusions, and the third embossed layer protrusion is a tissue including a third embossed layer protrusion width and a third embossed layer protrusion height. And,
The height of the first embossed layer protrusion is larger than the height of the second embossed layer protrusion, and the height of the second embossed layer protrusion is equal to or higher than the height of the third embossed layer protrusion.
The first embossed layer low protrusion width is equal to or less than the second embossed layer protrusion width or the plane width between the second embossed layer protrusions.
The density of the first embossed layer low protrusions is higher than the density of the second embossed layer protrusions.
In the process in which the first embossing layer and the second embossing layer are combined by a roller, the first embossing layer high protrusion and the second embossing layer protrusion are extruded and inlaid with each other, and a binder is applied to the first embossing layer. The first embossed layer low protrusion of the portion is supported by the second embossed layer protrusion.
Alternatively, in the process in which the first embossing layer and the second embossing layer are combined by a roller, the high projections of the first embossing layer and the plane between the projections of the second embossing layer are extruded and inlaid with each other, and the binder is formed. Once applied, some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane.
A tissue characterized in that the first embossing layer and the second embossing layer after being composited and coated with a binder are composited with the third embossing layer by a roller. The first embossing layer and the second embossing layer after being composited and coated with the binder are composited with the third embossing layer by a roller, extruded and inlaid with each other, and the binder is applied. 1 The embossed layer high protrusion and the second embossed layer protrusion are adhered to the third embossed layer inter-projection plane, and the third embossed layer protrusion and the second embossed layer inter-projection plane are extruded and inlaid with each other. The tissue according to claim 1. The first embossing layer and the second embossing layer after being composited and coated with the binder are composited with the third embossing layer by a roller, extruded and inlaid with each other, and the binder is applied. 1 The embossed layer high protrusion and the second embossed layer inter-projection plane are adhered to the third embossed layer inter-projection plane, and the third embossed layer projection and the second embossed layer projection are extruded and inlaid with each other. The tissue according to claim 1. The tissue according to claim 2 or 3, wherein the first embossing layer, the second embossing layer, and the third embossing layer are all one layer, two layers, or multiple layers. The tissue according to claim 2 or 3, wherein the first embossed layer low protrusion is a pressure point, and the first embossed layer high protrusion is a combination figure of a dotted line. The tissue according to claim 2 or 3, wherein the second embossed layer protrusion has a wave structure, or the second embossed layer protrusion is an embossed pressure point. The tissue according to claim 6, wherein the wave structure is wrinkles, ripple contours, and wavy contours. The tissue according to claim 2 or 3, wherein the binder is glue, water, or a natural extract, and the binder has a color, a scent, or is colorless and tasteless. The method for producing a tissue according to any one of claims 1 to 8, wherein a first embossing layer, a second embossing layer, and a third embossing layer are formed by an embossing roller.
The first embossed layer and the second embossed layer are composited by a roller and coated with a binder, and the first embossed layer high protrusion and the second embossed layer protrusion are extruded and inlaid with each other and the binder is applied. Is applied, and some of the first embossed layer low protrusions are supported by the second embossed layer protrusions, and some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane.
The first embossing layer and the second embossing layer, which are extruded and inlaid with each other and coated with a binder, are attached to the third embossing layer, and the first embossing layer high protrusion and the second embossing layer are attached. A method for producing a tissue, wherein the protrusion is adhered to the third embossed layer inter-projection plane, and the third embossed layer projection and the second embossed layer inter-projection plane are extruded and inlaid with each other. The method for producing a tissue according to any one of claims 1 to 8, wherein the first embossing layer and the third embossing layer are formed by the embossing roller.
The first embossing layer and the second embossing layer are composited by a roller and coated with a binder, and the high projections of the first embossing layer and the plane between the projections of the second embossing layer are extruded and inlaid with each other. A binder is applied, and some of the first embossed layer low protrusions are supported by the second embossed layer interprojection plane, and some of the first embossed layer low protrusions are supported by the second embossed layer protrusions. Being done
The first embossing layer and the second embossing layer, which are extruded and inlaid with each other and coated with a binder, are attached to the third embossing layer, and the first embossing layer high protrusion and the second embossing layer are attached. A method for producing a tissue, wherein the inter-projection plane is adhered to the inter-projection plane of the third embossed layer, and the third embossed layer projection and the second embossed layer projection are extruded and inlaid with each other.

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