JP4649148B2 - Tissue paper - Google Patents

Description

  The present invention relates to a sanitary thin paper that is a tissue paper for treating a liquid containing a virus such as a runny nose.

  Conventionally, this type of sanitary thin paper has a problem that it is unsanitary because a liquid containing a virus such as a runny nose may come through and stick to a hand. Of course, if the sanitary thin papers are stacked in layers, the problem of the show-through is avoided. However, it is uneconomical to stack multiple layers of sanitary thin paper. Moreover, when the sanitary thin papers are stacked in layers, the thinness and softness are impaired, so that the merit of the recent sanitary thin papers that are rich in thinness and softness is diminished.

  Accordingly, sanitary thin paper containing an antiviral agent has been proposed as a sanitary thin paper that has solved the problem of being unsanitary without impairing thinness and softness (see, for example, Patent Document 1).

However, in reality, even in this sanitary thin paper, before the antibacterial action of the antiviral agent is manifested, a liquid containing a virus such as a runny nose may get through, so there is a problem that it is unsanitary. It cannot be said that it has been completely solved.
Special table 2003-512542 gazette

  The main subject of this invention is providing the sanitary thin paper which solved the problem of being unsanitary completely, without impairing thinness and softness.

The present invention that has solved this problem is as follows.
[Invention of Claim 1]
A tissue paper made up of three or more layers,
The outer layer is a liquid-permeable layer,
At least one intermediate layer is a liquid-impermeable layer, and the liquid-impermeable layer is a film having a plurality of micropores having an opening diameter of 0.1 to 40 nm,
Anti-viral agent is applied on both sides of the film,
Tissue paper characterized by that.

[Invention of Claim 2 ]
The tissue paper according to claim 1 , wherein each of the layers overlapping each other is subjected to at least one of thermal fusion, ultrasonic fusion, pressure-sensitive adhesive, and ply bonding.

[Invention of Claim 3 ]
The tissue paper according to claim 1 or 2 , wherein the softness is 0.5 to 3.0 g and the KES feel index is 8 to 15.

  According to the sanitary thin paper of the present invention, the problem of being unsanitary is completely solved without impairing thinness and softness.

Next, an embodiment of the present invention will be described.
〔Construction〕
As shown in FIGS. 1-4, the sanitary thin paper 10 of this Embodiment becomes a multilayer of two or more layers. Here, it should be noted that the “layer” in the present invention does not mean a so-called “ply”. That is, the sanitary thin paper 10 may be one ply as shown in the illustrated example, or may be two plies, three plies, four plies, or a plurality of plies that are not illustrated. At this time, each ply may be composed of a plurality of layers overlapping each other, or may be composed of each layer alone.

  However, as shown in FIG. 1, in the sanitary thin paper 10, at least one of the layers other than the one outer layer 11 is liquid-impermeable in the illustrated example. As a result, the back-through of the liquid W containing a virus such as a runny nose absorbed (water absorption) in one outer layer 11 (missing into the other outer layer 12) is prevented, and the problem of being unsanitary is solved. At this time, the number of liquid-impermeable layers is not particularly limited. For example, the other outer layer 12 is also liquid-impermeable, or the middle layers 21 and 21 are formed as shown in FIG. It is also possible to make two or more layers, all of which are liquid-impermeable. Moreover, although the sanitary thin paper 10 of FIG.1 and FIG.2 is each 3 layers or 4 layers, as shown in FIG. 3, it can also be made into 2 layers. However, in the form of FIG. 3 and the form in which the other outer layer 12 of FIGS. 1 and 2 is liquid-impervious, only one outer layer 11 side becomes the use surface. As shown, it is better to have a multilayer of three or more layers and to make both outer layers 11 and 12 liquid permeable. In the present specification, the layers constituting both surfaces of the sanitary thin paper 10 are represented as outer layers 11 and 12, and all layers sandwiched between the outer layers 11 and 12 are represented as middle layers 21.

  In the sanitary thin paper 10, it is sufficient that the liquid-impermeable layer (21) is liquid-impermeable so that the runny nose does not pass through while holding the tissue paper by hand. Specifically, the liquid impermeability based on the 10-point method is preferably 0 to 9 points, more preferably 0 to 5 points, and 0 to 2 points. Is particularly preferred. Moreover, when the liquid impermeability based on the 10-point method was 0 to 2 points, as shown in FIG. 4, when the sanitary thin paper 10 was rolled after use, the liquid W containing viruses such as runny nose was wrapped. This is particularly preferable because it is kept in a state.

  Here, the 10-point method is an evaluation method for indicating the degree of liquid impermeability. In this evaluation method, first, three filter papers are stacked, a test piece is placed thereon, and a measurement plate 40 shown in FIG. 6 is placed thereon. And each hole 41, 41 ... of the measurement board 40 is filled with a water drop, the number absorbed by 3 paper within 2 second is counted, and this number is shown as a score. The measuring plate 40 has a thickness of 8 mm, and the diameters of the holes 41, 41... Are 10 mm.

  The present sanitary thin paper 10 will be described with reference to FIG. 1 as an example. When the antiviral agent is applied to the surface 11a on the one outer layer 11 side of the liquid-impermeable layer 21, it becomes more preferable. According to this form, the liquid W absorbed and permeated in the outer layer 11 remains in contact with the antiviral agent applied to the surface 11a, so that the killing action of the antiviral agent is effectively expressed. It will be. However, the antiviral agent does not have to be applied to the surface 11a, and can be internally added to the liquid-impermeable layer 21. For example, when the liquid impermeability based on the 10-point method is 7 to 9 points, which is relatively low, the time spent on the surface 11a of the liquid W is shortened. Therefore, the internal addition is preferable. .

  The method for applying (externally adding) the antiviral agent is not particularly limited. For example, spray coating, gravure coating, slot coating and the like can be exemplified. Further, the application amount of the antiviral agent is not particularly limited. For example, the coating amount can be 5 to 50% by mass in absolute dry per side. On the other hand, the method of internally adding an antiviral agent is not particularly limited. For example, a microcapsule can be used.

  Each of the layers 11, 21, 12 that overlap each other is preferably subjected to at least one of thermal fusion, ultrasonic fusion, adhesive, and ply bonding. Since the sanitary thin paper 10 has an effect depending on the combination of the layers, the effect of the present invention can be surely exhibited when the processing is performed and the layers are integrated.

  Here, in this specification, ply bonding refers to a process of bringing layers into close contact with each other, and examples thereof include embossing, slit formation, and adhesion.

  In the sanitary thin paper 10, there is no particular limitation on how much strength the above processing is applied (how much the layers are adhered to each other). For example, it may be applied strongly so that a plurality of layers become 1 ply or weakly applied so that each layer becomes 1 ply.

  The sanitary thin paper 10 preferably has a softness of 0.5 to 3.0 g and a KES touch index of 8 to 15. If this value is satisfied, the sanitary thin paper 10 is sufficiently soft.

  Here, softness is a resistance value (average value in length and width) when a sanitary thin paper having a width of 10 cm is pushed into a gap having a width of 5.0 mm by a terminal, and means that the smaller the value is, the softer it is. In this specification, softness refers to a value measured by the handle ohm method (JIS L-1096 E method). The softness can be adjusted, for example, by changing the basis weight, the number of layers, the types of fibers and films forming the layers, the fusing process conditions, and the like.

On the other hand, the KES touch index is a value measured by the following method.
That is, in this measurement, as shown in FIGS. 7 to 9, for example, an artificial leather (suppler: Asahi Kasei) on the base of a friction tester “KES SE” manufactured by Kato Tech Co., Ltd. The measurement terminal is covered with artificial leather (Supplar: Asahi Kasei), and olive oil (BOSCO extra virgin oil: Japan) is covered with the artificial leather (contact plane) of the measurement terminal of the measurement terminal. (Fine refined oil) 4 mg is uniformly applied, and the same procedure as the MMD measurement is performed. Specifically, the contact plane made of artificial leather is composed of a piano wire with a cross-sectional diameter of 0.5 mm, has a unit bulging portion with a radius of curvature of 0.25 mm adjacent to it, and has a total width of 10 mm. An MMD measurement terminal having a continuous measurement surface and a measurement surface of approximately 10 mm square with a measurement surface length of 10 mm can be formed by covering with the artificial leather. The covering of the terminal with the artificial leather is carried out by covering the terminal with the artificial leather so that a contact plane of 10 mm square is formed or so that the artificial leather is in close contact with the measurement surface of the terminal or with a slight tension. Can be achieved. When fixing the artificial leather to the terminal, make sure to fix the artificial leather so that the artificial leather and the internal terminal do not move and the contact plane is distorted during measurement, that is, when the paper sample is moved. is important. For example, after the terminal is covered so that the contact plane is formed, a portion that does not form the contact plane is firmly fixed to a portion that does not affect the measurement of the apparatus with a rubber band or the like, for example, a support material of the terminal. . Also, artificial leather is laid on the base of the MMD testing machine and fixed with adhesive tape or the like. At this time, it is important to firmly fix the artificial leather to the base so as not to be distorted during measurement. The artificial leather laid on the base is the same as the artificial leather constituting the contact plane. In addition, the paper sample is cut into a 10 cm square and used, and is fixed to a base on which artificial leather is laid. At the time of measurement, a sample pressing weight (about 100 g) is pressed on a paper sample. In addition, the load on the measuring terminal of the testing machine is set to 50 g, and the entire contact plane made of artificial leather is brought into contact with the paper sample with a contact pressure of 50 gf / cm ^2. This is similar to the MMD measurement. This can be achieved by attaching a disk-shaped weight to the top of the terminal. Of course, the method of fixing one end of the support material (the end opposite to the moving direction of the paper sample) conforms to the MMD measurement. The measurement is performed three times in the vertical direction of the paper sample and three times in the horizontal direction for a total of six times, and the measured value (KES feel index) is the average value of the six times.

  This KES feel index can be adjusted, for example, by changing the type of fiber forming the outer layer, the fiber length, the fineness, etc., or by adding or externally adding glycerin or silicon to the outer layer.

When the sanitary thin paper 10 is, for example, a pair (two plies) of tissue paper in a stack of two sheets, each sheet (one sheet) has a basis weight of 10 to 13 g / m based on JIS P 8124. ² is preferable, and 11.9 to 12.7 g / m ² is more preferable. If the basis weight is less than 10 g / m ² , papermaking becomes difficult. On the other hand, when the basis weight exceeds 13 g / m ² , the softness is lowered, and the feeling of use and the pulling-out performance from the storage box are lowered.

  Moreover, when using it as tissue paper, it is preferable that the paper thickness in a set of two sheets is 90 to 120 μm, and more preferably 94 to 112 μm. If the paper thickness is too thin, the feeling of paper thinness felt by the user becomes remarkable, and the water-absorbing property is poor and the function as tissue paper is lowered. On the other hand, when the paper thickness is too thick, the drawer performance when a predetermined number of sheets are stored in a storage box to produce a product is deteriorated.

[Raw materials]
In the sanitary thin paper 10, the raw material of each layer is not particularly limited, and an appropriate raw material can be used according to the use such as tissue paper and toilet paper. When using pulp fiber as a raw material, as this pulp fiber (raw material pulp), for example, from wood pulp, non-wood pulp, synthetic pulp, waste paper pulp, etc., more specifically, groundwood pulp (GP), Mechanical pulps such as Stone Grand Pulp (SGP), Refiner Grand Pulp (RGP), Pressurized Ground Pulp (PGW), Thermomechanical Pulp (TMP), Chemi Thermomechanical Pulp (CTMP), Bleach Chemi Thermomechanical Pulp (BCTMP) MP), chemical mechanical pulp (CGP), semi-chemical pulp (SCP), hardwood bleached kraft pulp (LBKP), softwood bleached kraft pulp (NBKP) and other kraft pulp (KP), soda pulp (AP), sulfite Pulp (SP), chemical pulp such as dissolving pulp (DP) (C ), Synthetic pulp made from nylon, rayon, polyester, polyvinyl alcohol (PVA), etc., deinked pulp (DIP), waste paper pulp such as waist pulp (WP), ground pulp (TP), cotton, flax, hemp, Select one or several types from rag pulp, straw pulp, esparto pulp, bagasse pulp, bamboo pulp, kenaf pulp and other auxiliary pulps such as bast pulp, etc. Can be used.

  However, the liquid-permeable layer is preferably made of at least one of cellulose, hemicellulose, hydrophilic acetate cellulose, and hydrophilic nonwoven fabric as a raw material.

  On the other hand, the liquid-impermeable layer is preferably made from at least one of a film, a water-repellent nonwoven fabric, and acetate cellulose. However, even when the liquid-impermeable layer uses pulp fiber as a raw material, the sizing agent is preferably contained in an amount of 0.02 to 0.06% in terms of the solid content to the absolute dry mass of the pulp. It becomes more preferable when it contains -0.05%. If the blending amount of the sizing agent is less than 0.02% by mass, it is impossible to sufficiently reduce the back-through of the liquid. On the other hand, when the compounding quantity of a sizing agent exceeds 0.06 mass%, the problem that water repellency becomes too strong will arise.

  As the sizing agent, for example, neutral sizing agents such as alkyl ketene dimer, alkenyl succinic anhydride and stearic anhydride, acidic sizing agents such as saponified natural rosin and reinforced rosin can be used.

  By the way, when the liquid-impermeable layer is formed using, for example, a film or the like as a raw material, the film may not be formed with micropores, but the viewpoint of pursuing the softness of sanitary thin paper. Is preferably formed with a plurality of micropores. The opening diameter of the plurality of micropores is preferably 0.1 to 40 nm, more preferably 0.5 to 30 nm, and particularly preferably 10 to 20 nm. If the opening is too small, the effect of increasing the softness of the sanitary thin paper will not be sufficient. On the other hand, if the opening is too large, the virus may pass through the impermeable layer of the present liquid. In addition, the magnitude | size of a virus is about 20-250 nm.

  The film in which the micropores are not formed can be formed from, for example, a hydrophobic thermoplastic resin. On the other hand, a film (porous film) in which micropores are formed is a film obtained by melt-kneading a hydrophobic thermoplastic resin and a fine inorganic filler made of calcium carbonate or the like or an incompatible organic polymer. And this film can be formed by uniaxial or biaxial stretching. As the above thermoplastic resin, polyolefin or the like can be used. Moreover, as this polyolefin, 1 type or several types can be suitably selected and used from high to low density polyethylene, linear low density polyethylene, a polypropylene, polybutene etc., for example.

  Examples of the non-woven fabric described above include, for example, polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate, fibers made of a single thermoplastic resin such as polyamide, core-sheath type using two or more of these resins, side A nonwoven fabric formed of a composite fiber having a bisite structure can be used. The nonwoven fabric is preferably produced by a general production method such as an air-through method, a melt blown method, a heat seal method, a spun bond method, or a suction heat bond method.

  Raw materials such as pulp fibers are formed into a single layer by, for example, a known papermaking process, specifically, a wire part, a press part, a dryer part, a size press, a calendar part, and the like. In this papermaking, for example, appropriate chemicals such as a dispersant, caustic soda, aqueous ammonia and other pH adjusters, antifoaming agents, preservatives, fluorescent dyes, mold release agents, water resistance agents, flow modifiers, yield improvers, etc. Can be added.

  In the sanitary thin paper 10, the type of antiviral agent that can be used is not particularly limited. For example, monoterpene hydrocarbons contained in plant extract components such as oximen, camphene, limonene, sabinene, myrcene, terpinene, pinene, and cymene, monoterpene alcohols such as citronellol, geraniol, isopulegol, linalool, terpineol, and anethole , Phenols such as carvacrol, eugenol, thymol, paracresol, kabicol, phenol ethers such as t-anethole, chabicol methyl ether, safrole, aldehydes such as acetaldehyde, citral, citronellal, geranial, perilaldehyde, parellarnal, Ketones such as acetophenone, camphor, jasmon, note caton, menthone, foncon, carvone, plegon, potassium olefin oxide, cineo 1 or several kinds of medicinal components such as catechin, proanthocyanidins, flavones, flavanones, anthocyanins, phenols, flavonoids such as flavonols, etc. Can be used. Further, for example, organic acids such as ascorbic acid, carboxylic acid and citric acid, anionic surfactants, cationic surfactants, amphoteric surfactants, nonionic surfactants and the like can also be used.

〔Production method〕
Next, the manufacturing method of the sanitary thin paper 10 will be described by taking a case of three layers as an example.
In this manufacturing method, as shown in FIG. 5, first, the liquid-impermeable middle layer 21 is unwound from the reel 31. Next, an antiviral agent is applied to one or both surfaces of the intermediate layer 21 that has been fed out, or both surfaces in the illustrated example, by the antiviral agent applying means 35 and 36. Then, one outer layer 11 or the other outer layer 12 having water absorbability and liquid permeability is superimposed on both surfaces of the middle layer 21 coated with the antiviral agent. In this manufacturing example, one outer layer 11 is fed out from the reel 32 and the other outer layer 12 is fed out from the reel 33 so as to overlap the middle layer 21. The sanitary thin paper 10 having three layers in this way can be wound up on a reel 34 and stored as appropriate.

  The present invention is applicable as sanitary thin paper such as tissue paper and toilet paper.

It is a cross-sectional schematic diagram of a sanitary thin paper (3 layers). It is a cross-sectional schematic diagram of a sanitary thin paper (four layers). It is a cross-sectional schematic diagram of a sanitary thin paper (two layers). It is a cross-sectional schematic diagram of sanitary thin paper (at the time of disposal). It is a figure which shows the manufacture flow of sanitary thin paper. It is a perspective view of a measurement board. It is a figure for demonstrating the measuring method of a KES touch index. It is a figure for demonstrating the measuring method of a KES touch index. It is a figure for demonstrating the measuring method of a KES touch index.

  10 ... sanitary thin paper, 11, 12 ... outer layer, 21 ... middle layer, W ... liquid.

Claims (3)

A tissue paper made up of three or more layers,
The outer layer is a liquid-permeable layer,
At least one intermediate layer is a liquid-impermeable layer, and the liquid-impermeable layer is a film having a plurality of micropores having an opening diameter of 0.1 to 40 nm,
Anti-viral agent is applied on both sides of the film,
Tissue paper characterized by that. The tissue paper according to claim 1 , wherein each of the layers overlapping each other is subjected to at least one of thermal fusion, ultrasonic fusion, pressure-sensitive adhesive, and ply bonding. The tissue paper according to claim 1 or 2 , wherein the softness is 0.5 to 3.0 g and the KES feel index is 8 to 15.

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