JP2018114467A - Decontamination sheet and decontamination article with the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a decontamination sheet capable of removing a liquid compound from a decontamination target and low in secondary contamination risk without scattering a removed hazardous compound.SOLUTION: A decontamination sheet 3 is manufactured by laminating one or more each of a liquid absorption layer 1 for absorbing a liquid hazardous compound and a gas absorption layer 2 for absorbing a gaseous hazardous compound, the liquid absorption layer 1 consists of a fibrous material by a fiber with average fiber diameter of 0.05 μm to 5.0 μm, bulk density of the liquid absorption layer 1 is 0.05 g/cmto 0.15 /cm, and a liquid shielding layer S is laminated in an opposite side to a side in which the liquid absorption layer 1 of the gas absorption layer 2 is laminated.SELECTED DRAWING: Figure 1

Description

  The present invention can remove liquid compounds from, for example, work clothes that are contaminated with liquid harmful compounds that are absorbed from the skin, such as organic phosphorus compounds, and adversely affect the human body, and the removed harmful compounds do not scatter. , Relating to a decontamination sheet with a low risk of secondary contamination. The decontamination sheet of the present invention is used for decontamination of clothes, gloves, shoes, covers, shelters and the like, for example.

  Generally, a decontamination operation is known in which a decontaminating agent adhering to work clothes or the like is sprayed or washed away with a liquid decontaminating agent such as activated clay or a bleaching powder solution.

  However, when harmful compounds are decontaminated using powder or liquid, it is assumed that contaminated powder or liquid decontaminant will be scattered around the environment after use, and there is concern about the risk of secondary contamination. Or need to carry a large amount of decontamination reagent.

  With regard to such decontamination, for example, Patent Document 1 discloses a powdery decontamination material such as activated clay between a cloth that does not allow water and powder to pass therethrough and a non-permeable cloth that does not pass water but allows powder to pass therethrough. A decontamination tool that encloses the substance has been proposed. This decontamination tool decontaminates by adsorbing, neutralizing, or suppressing harmful decontamination materials by decontaminating material discharged from the inside by wearing contaminated work clothes. To do. However, since a powdery decontamination material is used, powder contaminated with harmful compounds is scattered after decontamination, or harmful compounds attached to or adsorbed on the powder are gasified and re-scattered. Risk of contamination is assumed.

  For example, Patent Document 2 proposes a textile composite material for decontaminating harmful compounds adhering to the skin without performing a cleaning treatment. This textile composite material is composed of a superabsorbent, which is a polymer material that absorbs water and other fluids and swells by droplets, and a nanofiber nonwoven fabric. Furthermore, the composite material contains an agent that contributes to sweat evaporation. It is what it contains. This composite material is for removing harmful compounds on the skin.

  Further, for example, Patent Document 3 exemplifies a hybrid adsorbent in which activated carbon is sandwiched between a nonwoven fabric containing absorbent cotton that absorbs contaminated water and a nonwoven fabric containing wool that absorbs oil in contaminated water. And can adsorb cesium. Absorbent cotton is used for the nonwoven fabric used for this hybrid adsorbent, and wool with high oil absorbability is used for efficient absorption of contaminated water. For this reason, it is speculated that it is possible to treat oil or liquid floating in the air or water after a certain period of time, but it is difficult to instantaneously remove harmful compounds adhering to work clothes, etc. It is not suitable for processing.

Japanese Patent No. 3436886 Patent No. 5456163 Patent No. 5759265

  The present invention has been made against the background of such prior art problems. That is, the object of the present invention is to quickly and efficiently remove a liquid compound from a decontamination target contaminated with a liquid harmful compound that is absorbed from the skin such as an organophosphorus compound and adversely affects the human body, An object of the present invention is to provide a decontamination sheet that can be adsorbed even when the removed harmful compound is gasified and has a low risk of secondary contamination. The decontamination target of the decontamination sheet is an article from which organic substances (contaminants) are removed by decontamination work (wiping) with the decontamination sheet. For example, work clothes, gloves, shoes, covers, shelters For example, the body may be used. Of course, the decontamination target is not limited to these.

  As a result of intensive studies, the present inventors have found that the above problems can be solved by the following means, and have reached the present invention. That is, this invention consists of the following structures.

1. A decontamination sheet in which one or more liquid absorption layers that absorb liquid harmful compounds and one or more gas adsorption layers that adsorb gaseous harmful compounds are laminated,
The liquid absorbent layer has an average fiber diameter made 5.0μm or less fibrous materials than 0.05 .mu.m, a bulk density of the liquid absorbing layer is 0.05 g / cm ³ or more 0.15 g / cm ³ be below ,
A decontamination sheet, wherein a liquid blocking layer is laminated on a side of the gas adsorption layer opposite to a side where the liquid absorption layer is laminated.
2. 2. The decontamination sheet according to 1 above, wherein the fibrous material is a woven fabric, a knitted fabric, a nonwoven fabric, or a composite material thereof.
3. 3. The decontamination sheet according to 1 or 2 above, wherein the thickness of the liquid absorption layer is 0.1 mm or more and less than 5.0 mm.
4). The decontamination sheet according to any one of 1 to 3, wherein the weight of the liquid absorption layer is 30 g / m ² or more and less than 600 g / m ² .
5. The inner cloth, the liquid blocking layer, the gas adsorption layer, and the liquid absorption layer are stacked in the order of description, or the liquid blocking layer, the inner cloth, the gas absorption layer, and the liquid absorption layer are stacked in the order of description. 5. The decontamination sheet according to any one of 1 to 4 above, wherein
6). A decontamination article using the decontamination sheet according to any one of 1 to 5 above.
Moreover, the sheet for decontamination of the present invention may be formed in a roll shape and perforated so as to be cut off, or a plurality of sheets for decontamination may be stored in a box so that they can be taken out one by one. In addition, the decontamination sheet may be subjected to processing such as cutting, sewing, and pasting to other materials. Decontamination articles that have undergone such processing are also included in the scope of the present invention. Moreover, as a decontamination article provided with the decontamination sheet of the present invention, for example, a glove (including a clove, a mitt, etc., which may or may not have a shape along a finger), a towel, Examples include, but are not limited to, mats and rolls.

  The present invention enables the removal of harmful compounds from a decontamination target that has been absorbed from the skin such as an organophosphorus compound and contaminated with liquid harmful compounds that adversely affect the human body, with high efficiency, and gas. It is possible to provide a decontamination sheet that does not scatter scattered harmful compounds and has a low risk of secondary contamination. In addition, the decontamination sheet of the present invention can prevent penetration (adhesion) of harmful compounds that have permeated through the liquid absorption layer and the gas adsorption layer into the operator by the liquid blocking layer. The decontamination sheet is used with the liquid absorption layer side directed toward the decontamination target and the liquid blocking layer side directed toward the operator. Furthermore, the decontamination sheet of the present invention is convenient to carry. As can be seen from these, the decontamination sheet of the present invention is extremely suitable for use in decontamination of liquid and gaseous harmful compounds.

It is a figure which shows an example of a structure of the sheet | seat for decontamination concerning embodiment of this invention. It is a figure which shows the container used for a gas scattering inhibitory test.

  Hereinafter, embodiments of the present invention will be described in detail. As shown in FIG. 1, the decontamination sheet 3 of the present invention includes one or more liquid absorption layers 1 that absorb liquid harmful compounds and one or more gas adsorption layers 2 that adsorb gaseous harmful compounds. Configured. Further, in the decontamination sheet 3 of the present invention, the liquid blocking layer S is laminated on the opposite side of the gas adsorption layer 2 from which the liquid absorption layer 1 is laminated.

  The liquid absorbing layer 1 can be appropriately selected from materials such as a woven fabric, a knitted fabric, and a nonwoven fabric. Among them, a nonwoven fabric is preferable from the viewpoint of operability such as wiping of liquid and flexibility.

  The material used for the liquid-absorbing layer 1 is not particularly limited, and natural fibers such as cotton, hemp, hair, and silk; regenerated fibers such as rayon, polynosic, cupra, and reyocell; acetate fibers, triacetate fibers, and the like Semi-synthetic fiber; Polyamide fiber such as nylon 6, nylon 66, aramid fiber; Polyester fiber such as polyethylene terephthalate fiber, polybutylene terephthalate fiber, polylactic acid fiber, polyarylate; Polyacrylonitrile fiber, polyacrylonitrile-vinyl chloride copolymer fiber Acrylic fibers such as modacrylic fibers; polyolefin fibers such as polyethylene fibers and polypropylene fibers; polyvinyl alcohol fibers such as vinylon fibers and polyvinyl alcohol fibers; polychlorinated fibers such as polyvinyl chloride fibers, vinylidene fibers and polyclar fibers. Nyl fiber; synthetic fiber such as polyurethane fiber; polyphenylene sulfide fiber; polybenzazole fiber (PBZ), polyparaphenylene benzobisoxazole (PBO), polybenzimidazole (PBI) fiber, and heterocyclic polymer fiber such as polyimide fiber A polycarbonate fiber; a polysulfone fiber; a polyether fiber such as a polyethylene oxide fiber or a polypropylene oxide fiber; These fibers may be used in combination.

  The fiber diameter of the liquid absorbing layer 1 is preferably 0.05 μm or more and 5.0 μm or less, and more preferably 0.15 μm or more and 4.5 μm or less. When the fiber diameter is less than 0.05 μm, the mechanical strength is poor. Moreover, when the fiber diameter of the liquid absorption layer 1 exceeds 5.0 μm, the harmful compound droplets remain on the decontamination target.

The mass of the liquid absorption layer 1 is preferably 30 g / m ² or more and 600 g / m ² or less, more preferably 50 g / m ² or more and 400 g / m ² or less. If the mass of the liquid absorption layer 1 is less than 30 g / m ² , the liquid absorbability decreases and satisfactory decontamination performance of harmful compounds cannot be obtained. Moreover, since the softness | flexibility and the operativity at the time of use will fall when the mass of the liquid absorption layer 1 exceeds 600 g / m < ² >, it is unpreferable.

  The thickness of the liquid absorbing layer 1 is preferably from 0.1 mm to 5.0 mm, and more preferably from 0.2 mm to 2.0 mm. If the thickness of the liquid absorption layer 1 is less than 0.1 mm, the mechanical strength is poor. Moreover, since the operativity at the time of use will fall when the thickness of the liquid absorption layer 1 exceeds 5.0 mm, it is unpreferable.

The bulk density of the liquid absorbing layer 1 is preferably 0.05 g / cm ³ or more 0.15 g / cm ³ or less. If the bulk density of the liquid absorption layer 1 is less than 0.05 g / cm ³ , the material becomes sparse and the material becomes brittle. On the other hand, when the bulk density of the liquid absorption layer 1 exceeds 0.15 g / cm ³ , the porosity of the liquid absorption layer becomes small, and a sufficient liquid retention amount cannot be obtained.

  The fibers used in the liquid absorbing layer 1 are not only fibers having a round cross section, but also applying irregular cross-section fibers of triangles, polygons and other complicated shapes in order to increase the contact area with the liquid, It is also effective to apply a split fiber or the like in which a part or the whole is fibrillated.

  The decontamination sheet 3 can suppress scattering of gasified harmful compounds by laminating the gas adsorption layer 2 on the liquid absorption layer 1. In use, the liquid absorption layer 1 side is directed to the decontamination target.

  Examples of the gas adsorbent used for the gas adsorbing layer 2 include carbon adsorbents such as activated carbon and carbon black, gas adsorbents such as silica gel, zeolite adsorbent, silicon carbide, or inorganic adsorbent such as activated alumina. Can be mentioned. However, it is not limited to these, and can be selected as appropriate according to the substance to be adsorbed. Among them, activated carbon that can deal with a wide range of gases is preferable, and fibrous activated carbon that has a large adsorption rate and adsorption capacity and can effectively suppress gas permeation when used in a small amount is more preferable.

  The gas that is the substance to be adsorbed by the gas adsorption layer 2 may be a gaseous compound having one or more carbon elements. Such gaseous compounds include, for example, gaseous chemical substances that have a relatively large molecular weight of 50 or more and can be adsorbed by the gas adsorption layer 2. Specific examples include organic phosphorus compounds used for agricultural chemicals, insecticides and herbicides, and general organic solvents such as toluene, methylene chloride and chloroform used for painting work and the like.

Here, when fibrous activated carbon is used for the gas adsorbent of the gas adsorption layer 2, the BET specific surface area is preferably 700 m ² / g or more and 3000 m ² / g or less, more preferably 1000 m ² / g or more and 2500 m ² / g or less. preferable. If the BET specific surface area is less than the above range, a large amount of activated carbon is required to obtain a sufficient amount of adsorption for the gaseous compound, the material becomes heavy, and there is a concern that the flexibility is inferior. On the other hand, when the above range is exceeded, a problem that the gas adsorbent becomes brittle may occur.

The mass (absolute dry mass) of the fibrous activated carbon contained in the gas adsorption layer 2 is preferably 50 g / m ² or more and 300 g / m ² or less, and more preferably 70 g / m ² or more and 250 g / m ² or less. When the mass is less than the above range, the capacity that can be adsorbed is reduced, and there is a concern that the performance of suppressing the scattering of the gaseous compound is lowered. On the other hand, when the above range is exceeded, there is a concern that the flexibility of the material is inferior.

  The thickness of the fibrous activated carbon contained in the gas absorption layer 2 is preferably, for example, 0.1 mm or more and 3.0 mm or less, more preferably 0.5 mm or more and 2.0 mm or less, and further preferably 0. It is 7 mm or more and 1.5 mm or less. When the thickness of the fibrous activated carbon is less than 0.1 mm, there is a concern that the amount of adsorption of the gaseous harmful compound is reduced. On the other hand, if the thickness of the fibrous activated carbon exceeds 3.0 mm, the operability during use may be reduced.

  As raw materials for fibrous activated carbon, in addition to natural cellulose fibers such as cotton and hemp, regenerated cellulose fibers such as rayon, polynosic and solvent spinning methods, polyvinyl alcohol fibers, acrylic fibers, aromatic polyamide fibers, lignin fibers, phenols Synthetic fibers such as system fibers and petroleum pitch fibers. From the physical properties (strength etc.) and adsorption performance of the obtained fibrous activated carbon, regenerated cellulose fiber, phenol fiber, and acrylic fiber are preferable.

  Fibrous activated carbon can be produced by a conventionally known method. For example, after adding a suitable flameproofing agent to the fabric woven, knitted, or nonwoven fabric using the short fibers or long fibers of the above-mentioned raw materials as necessary, flameproofing treatment is performed at a temperature of 450 ° C. or lower. And then activated by carbonization at a temperature of 500 ° C. or higher and 1000 ° C. or lower.

  As a manufacturing method of the gas adsorption layer 2, a conventionally known method can be employed. For example, a method of adhering a gas adsorbent to a sheet base material with a binder, a method of making the gas adsorbent into a slurry including an appropriate pulp and binder, and making a paper with a wet paper machine, or weaving the raw material fibers of the gas adsorbent in advance, It is possible to adopt a method of carbonization and activation after knitting, making a nonwoven fabric, and performing a flame resistance treatment as necessary.

  The gas adsorption layer 2 preferably has any form of woven fabric, knitted fabric, non-woven fabric, or felt. Among these, the form of woven fabric or knitted fabric is more preferable from the viewpoints of air permeability, ease of lamination, flexibility, and the like.

  Examples of the laminating method of the liquid absorbing layer 1 and the gas adsorbing layer 2 include a laminating method using a needle punch, water punch, quilting, bonding, heat-sealing nonwoven fabric and the like, which are known processing recipes.

As a mass of the laminated body of the liquid absorption layer 1 and the gas adsorption layer 2, 900 g / m < ² > or less is preferable and 650 g / m < ² > or less is more preferable. If the mass of the laminate exceeds the above range, the material becomes heavy and poor in flexibility, and there is a problem that wearability and the like cannot be satisfied in various uses. The lower limit of mass is practically 80 g / m ² .

  The liquid blocking layer S blocks liquid penetration. Therefore, in the decontamination sheet 3, the liquid blocking layer S is laminated on the opposite side of the gas adsorption layer 2 to the side where the liquid absorption layer 1 is laminated, so that harmful compounds are mixed with the liquid absorption layer 1 and the gas adsorption layer. Even if it permeates 2, penetration (adhesion) of harmful compounds to workers can be prevented. The decontamination sheet 3 is used with the liquid absorption layer 2 side facing the decontamination target and the liquid blocking layer S side facing the operator.

  For the liquid blocking layer S, a sheet material such as an impermeable film can be used. As the material of the sheet material, for example, fluorine resin, chlorine resin, olefin resin, polyvinyl alcohol resin, polyethylene terephthalate, polyvinyl acetate resin, polyamide resin, urethane resin, cellulose resin, etc. are used. it can. Note that the liquid blocking layer S may be composed of materials other than the above materials.

  The thickness of the liquid blocking layer S is preferably 5 to 150 μm, and more preferably 20 μm to 120 μm. When the thickness is 5 μm or more, the strength is high and it can be prevented from being broken by external force during wiping. Further, when the thickness is 150 μm or less, the flexibility of the decontamination sheet 3 can be maintained, and the mounting property and operability of the decontamination sheet 3 are not impaired. It is possible to use a material that is flexible even if it is thicker than the stated range and has a barrier property, and that is a material that has a strength even if it is thinner than the above range and has a barrier property. is there.

  The lamination method of the liquid blocking layer S and the laminated body of the liquid absorption layer 1 and the gas adsorption layer 2 is not particularly limited. For example, an adhesive process or a sewing process may be used.

  As thickness of the sheet | seat 3 for decontamination, 8.0 mm or less is preferable and 5.0 mm or less is more preferable. If the thickness exceeds the above range, the decontamination sheet 3 becomes stiff and the workability and the like deteriorate. In reality, the lower limit of the thickness is 0.2 mm.

  When the purpose of the decontamination sheet 3 is to significantly improve the mechanical strength, or when there are a plurality of target gases, the liquid absorption layer 1 and the gas adsorption layer 2 may be used in a superposed manner. It is valid.

  At least one layer of inner cloth is laminated as necessary on the innermost layer (the side opposite to the side where the gas adsorption layer 2 of the liquid blocking layer S is laminated) on the operator side of the sheet 3 for decontamination. Also good. The purpose of the inner cloth is to protect the decontamination sheet 3 from mechanical force applied from the outside, and to suppress the sticky feeling due to the sweat of the worker when the decontamination sheet 3 is processed into a mitt or the like Roles.

  Examples of the inner fabric include materials such as woven fabrics, knitted fabrics, nonwoven fabrics, and apertured / non-porous films made of various materials. Of these, woven fabrics or knitted fabrics and non-woven fabrics woven or knitted at a coarse density are preferable from the viewpoints of air permeability and flexibility. The laminate of the liquid absorbing layer 1 and the gas adsorbing layer 2 and the inner cloth may be bonded in advance with an adhesive, or may be sewn in a stacked state without bonding, considering flexibility. . Alternatively, after the inner cloth and the gas adsorption layer 2 are laminated in advance, the liquid absorption layer 1 may be laminated on the gas adsorption layer 2 side.

  For example, the thickness of the inner cloth is preferably 0.05 mm or more and 0.5 mm or less, more preferably 0.1 mm or more and 0.4 mm or less. When the thickness of the inner cloth is less than 0.05 mm, the cover layer is not sufficiently thick, and there is a possibility that the inner cloth is easily broken. Moreover, since the operativity at the time of use will fall when the thickness of an inner fabric exceeds 0.5 mm, it is unpreferable.

The mass of the inner fabric is, for example, preferably 15 g / m ² or more and 100 g / m ² or less, more preferably 20 g / m ² or more and 80 g / m ² or less. If the mass of the inner cloth is less than 15 g / m ² , there is a risk that the inner cloth easily breaks. Moreover, since the operativity at the time of use will fall when the weight of an inner fabric exceeds 100 g / m < ² >, it is unpreferable.

Liquid absorbent layer 1, the mass of the decontamination sheet 3 obtained by laminating a gas adsorption layer 2 and the inner fabric, preferably 1000 g / ^{m 2} or less, more preferably 730 g / ^{m 2.} If the mass exceeds 1000 g / m ² , the weight of the decontamination sheet 3 becomes large, which causes deterioration in wearability and operability.

  In the above description, the inner cloth is disposed in the innermost layer on the operator side of the decontamination sheet 3, but the inner cloth may be disposed between the liquid blocking layer S and the gas adsorption layer 2. That is, the inner cloth, the liquid blocking layer S, the gas adsorbing layer 2, and the liquid absorbing layer 1 may be laminated in the order of description, or the liquid blocking layer S, the inner cloth, the gas adsorbing layer 2, and the liquid absorbing layer 1 may be stacked in the order of description. It may be laminated. Further, an inner cloth may be further laminated on the outer side (surface) of the liquid absorbing layer 1. Moreover, the decontamination sheet 3 of this invention may have another layer between each layer containing an above-mentioned inner fabric.

  EXAMPLES Next, although this invention is demonstrated concretely using an Example and a comparative example, this invention is not restrict | limited by these Examples.

  First, the physical property evaluation methods described in Examples and Comparative Examples described below will be described. The evaluation method is as follows.

(1) Mass Measured according to JIS L 1096.8.3.

(2) Thickness It was measured according to JIS L 1096.8.4. However, all materials were measured at a pressure of 0.7 kPa.

(3) Bulk density It was calculated by the mass of the fabric measured by (1) / the thickness of the fabric.

(4) Fiber diameter The surface of the liquid absorption layer was observed with an electron microscope, and an average of 20 fiber diameters was calculated.

(5) Liquid wiping property 25 μL of a droplet of dipropyl phthalate colored with a pigment was dropped on a fabric produced by the following method. The liquid absorption layer side of the sheet for decontamination was applied onto the fabric, and the droplets were wiped off for 20 seconds with a load of 80 g / cm ² . Thereafter, the liquid droplets remaining on the fabric were determined by microscopic observation. As a result of microscopic observation, those having no liquid droplets were judged as good (◯), and those having liquid droplets were judged as poor (×).
<Method for Fabrication>
Nylon 66 filament yarn and cotton were blended at a blending ratio of 5 to 95, and a 40th blended yarn was produced by an electric opening method. Subsequently, weaving was performed by an ordinary method using an air jet loom to produce a 2/1 twill fabric having a warp density of 140 yarns / inch and a weft density of 108 yarns / inch. This was subjected to hair sinter, desizing, refining, bleaching, mercerization, dyeing, and soaping treatments in the usual manner. After that, the obtained protective material is immersed in a processing bath containing NUVA 2114 (manufactured by Clariant) adjusted to 5 wt% with water as a dispersion medium, squeezed so that the pickup becomes 50%, and dried at 100 ° C. A fabric was prepared by performing a curing treatment at 180 ° C.

(6) Gas scattering inhibitory property Cross-sectional view of the gas scattering inhibitory test container G is shown in FIG. The decontamination sheet 3 is sandwiched between two glass cells (upper cell 5 and lower cell 10) having an internal volume of 300 cc, and the periphery is sealed with paraffin 9. The decontamination sheet 3 is installed in the test container G with the liquid absorption layer 1 facing up. 30 μL of test liquid 7 (2-chloroethyl ethyl sulfide) is dropped from the upper cell 5 of the test container G onto the liquid absorption layer 1 of the sheet 3 for decontamination. Then, the test container G was placed in a constant temperature box set at 25 ± 2 ° C., and after 30 minutes, the gas concentration of the upper cell 5 and the gas concentration of the lower cell 10 were sampled from the sampling ports 6a and 6b and measured. The gas concentration in the upper cell 5 is the concentration of gas scattered from the liquid absorption layer 1 of the decontamination sheet 3 after wiping the test solution 7. The gas concentration in the lower cell 10 is the concentration of the test solution 7. This is the concentration of gas that penetrates (penetrates) the gas adsorption layer 2 of the decontamination sheet 3 after wiping. In Table 1 shown in the latter part, the gas concentration is described in the column of gas scattering inhibition. A lower gas concentration (gas scattering property) value means higher gas suppression.

Example 1
<Production of liquid absorption layer>
A liquid absorbing layer of Example 1 was prepared by superposing five sheets of polypropylene nonwoven fabric (Tapyrus Co., Ltd.) having a mass of 22 g / m ² , a thickness of 0.33 mm, a bulk density of 0.067 g / cm ³ , and a fiber diameter of 1.1 μm. did.

<Production of gas adsorption layer>
As the gas adsorption layer of Example 1, fibrous activated carbon in the form of a knitted fabric was produced by the following method. A circular knitted fabric having a single yarn fineness of 2.2 dtex and a No. 20 novolak phenol resin fiber spun yarn having a basis weight of 220 g / m ² is heated in an inert atmosphere at 410 ° C. for 30 minutes, and then contains 12% by volume of water vapor. In an atmosphere to activate at 890 ° C. for 2 hours. The obtained gas adsorption layer had an absolute dry mass of 103 g / m ² , a BET specific surface area of 1421 m ² / g, a thickness of 0.98 mm, a density of 0.11 g / cm ³ , and a gas permeability of 1.27 cm. With a pressure difference of 355 cm ³ / cm ² · s, the toluene adsorption performance (toluene gas equilibrium adsorption amount) was 52 g / m ² .

<Liquid barrier layer>
One sheet material (25 PWA manufactured by Asahi Glass Co., Ltd.) made of ETFE (a copolymer of tetrafluoroethylene and ethylene) having a thickness of 25 μm was used as the liquid blocking layer of Example 1.

<Inner cloth>
One polyester nonwoven fabric (Toyobo Co., Ltd., 3301A) having a mass of 30 g / m ² , a thickness of 0.17 mm, and a bulk density of 0.18 g / cm ³ was used as the inner fabric of Example 1.

<Decontamination sheet>
The liquid absorbing layer, the gas adsorbing layer, the liquid blocking layer, and the inner cloth were sequentially overlapped and stitched together to produce a decontamination sheet. Note that the fixing method is not limited to sewing as long as the overlapping of the layers is fixed. Table 1 below shows the results of testing the liquid decontamination property and gas scattering suppression property of the decontamination sheet thus obtained.

(Example 2)
<Liquid absorption layer>
A polypropylene nonwoven fabric (P200SW-00X manufactured by Tapirs Co., Ltd.) having a mass of 200 g / m ² , a thickness of 1.34 mm, a bulk density of 0.15 g / cm ³ , and a fiber diameter of 4.7 μm was used as the liquid absorbing layer of Example 2. .
<Decontamination sheet>
Using the liquid absorption layer of Example 2, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, the same method as in Example 1 is used for decontamination. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Example 3)
<Liquid absorption layer>
^Three polypropylene non-woven fabrics (P030SB-00X manufactured by Tapirs Co., Ltd.) having a mass of 30 g / m ² , a thickness of 0.42 mm, a bulk density of 0.07 g / cm ³ , and a fiber diameter of 2.8 μm were stacked. A liquid absorption layer was produced.
<Decontamination sheet>
Using the liquid absorption layer of Example 3, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, the same method as in Example 1 is used for decontamination. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

Example 4
<Liquid absorption layer>
A liquid absorbent layer of Example 4 was formed by superposing five pieces of polyester nonwoven fabric (Tapyrus Co., Ltd.) having a mass of 22 g / m ² , a thickness of 0.17 mm, a bulk density of 0.13 g / cm ³ , and a fiber diameter of 2.8 μm. Was made.
<Decontamination sheet>
Using the liquid absorption layer of Example 4, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, the same method as in Example 1 is used for decontamination. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Example 5)
<Liquid absorption layer>
Nonwoven fabric made of acrylic (Mitsubishi Paper Co., Ltd. Nano) with mass 30g / m ² , thickness 0.24mm, density 0.13g / cm ³ , fiber diameter 3.4μm fiber and 0.3μm fiber entangled Three liquid wipers Nano H130) were superposed to prepare a liquid absorption layer of Example 5.
<Decontamination sheet>
Using the liquid absorption layer of Example 5, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, the same method as in Example 1 is used for decontamination. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 1)
<Liquid absorption layer>
Mass 234 g / m ² , thickness 1.18 mm, bulk density 0.20 g / cm ³ , polyester woven fabric in which fibers with a fiber diameter of 0.66 μm and 6.5 μm fibers are entangled (Teijin Frontier K.K. The liquid absorption layer of Comparative Example 1 was manufactured as “Achi Kochi Fukin Nano”.
<Decontamination sheet>
The liquid absorption layer of Comparative Example 1, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 are used in this order, and are decontaminated in the same manner as in Example 1. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 2)
<Liquid absorption layer>
Three liquid non-woven fabrics (manufactured by Tapirs Co., Ltd.) having a mass of 22 g / m ² , a thickness of 0.12 mm, a bulk density of 0.18 g / cm ³ , and a fiber diameter of 1.34 μm are overlaid, and the liquid absorbing layer of Comparative Example 2 Was made.
<Decontamination sheet>
The liquid absorption layer of Comparative Example 2, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 are used in this order, and are decontaminated in the same manner as in Example 1. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 3)
<Liquid absorption layer>
A liquid of Comparative Example 3 was prepared by superposing two sheets of polyester woven fabric (Toroshi made by Toray Industries, Inc.) having a mass of 67 g / m ² , a thickness of 0.18 mm, a bulk density of 0.37 g / cm ³ , and a fiber diameter of 2.2 μm. An absorption layer was prepared.
<Decontamination sheet>
Using the liquid absorption layer of Comparative Example 3, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, decontamination is performed in the same manner as in Example 1. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 4)
<Liquid absorption layer>
^Three polypropylene non-woven fabrics (P030LW-00X manufactured by Tapirs Co., Ltd.) having a mass of 30 g / m ² , a thickness of 0.37 mm, a bulk density of 0.08 g / cm ³ , and a fiber diameter of 5.2 μm were overlapped. A liquid absorption layer was produced.
<Decontamination sheet>
Using the liquid absorption layer of Comparative Example 4, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, the same method as in Example 1 was used for decontamination. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 5)
<Liquid absorption layer>
Three sheets of non-woven fabric made of regenerated cellulose (cupra) having a mass of 30 g / m ² , a thickness of 0.22 mm, a bulk density of 0.14 g / cm ³ and a fiber diameter of 8.8 μm (Benryse SD30G manufactured by Asahi Kasei Fibers Co., Ltd.) A liquid absorbing layer of Comparative Example 5 was produced.
<Decontamination sheet>
Using the liquid absorption layer of Comparative Example 5, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, decontamination is performed in the same manner as in Example 1. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 6)
<Liquid absorption layer>
Comparative Example 6 by stacking three cotton nonwoven fabrics (Cot Ace C030S / A01 manufactured by Unitika Ltd.) having a mass of 30 g / m ² , a thickness of 0.25 mm, a bulk density of 0.12 g / cm ³ and a fiber diameter of 12.0 μm. A liquid absorption layer was prepared.
<Decontamination sheet>
Using the liquid absorption layer of Comparative Example 6, the gas adsorption layer of Example 1, the liquid blocking layer of Example 1, and the inner cloth of Example 1 in this order, decontamination is performed in the same manner as in Example 1. A sheet was produced. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 7)
<Decontamination sheet>
A sheet for decontamination was prepared using only the liquid absorbing layer of Example 1. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

(Comparative Example 8)
<Decontamination sheet>
A decontamination sheet was produced using only the gas adsorption layer of Example 1. The results of the liquid wiping property and gas scattering suppression property of the decontamination sheet thus obtained are shown in Table 1 below.

  As can be seen from Table 1, the decontamination sheets of Examples 1 to 5 are excellent in liquid wiping property and gas scattering suppression property, whereas the decontamination sheets of Comparative Examples 1 to 9 are either The evaluation items were inferior to the examples.

  It should be noted that the above-disclosed embodiments and examples are all illustrative and not restrictive. Further, embodiments and combinations of the respective examples are also included in the scope of the present invention. In other words, the technical scope of the present invention is effective according to the scope of the claims, and includes all changes, modifications, replacements, etc. within the meaning and scope equivalent to the description of the scope of claims.

  The decontamination sheet according to the present invention can quickly and efficiently remove harmful compounds from a decontamination target contaminated with liquid harmful compounds that are absorbed from the skin such as organophosphorus compounds and adversely affect the human body. Since the gasified harmful compounds are not scattered and the risk of secondary contamination is small, it can be suitably used as a sheet for decontamination. Moreover, the sheet for decontamination according to the present invention is suitable for use as a decontamination product such as a decontamination product such as a glove (clove), towel, mat, or roll for decontamination. Thus, the present invention can greatly contribute to industrial development.

1: Liquid absorption layer 2: Gas adsorption layer 3: Decontamination sheet 5: Upper cell (150 cc)
6a, 6b: Sampling port 7: Test solution 9: Paraffin 10: Lower cell (150 cc)
G: Test container S: Liquid barrier layer

Claims (6)

A decontamination sheet in which one or more liquid absorption layers that absorb liquid harmful compounds and one or more gas adsorption layers that adsorb gaseous harmful compounds are laminated,
The liquid absorbent layer has an average fiber diameter is made of a fibrous material according to 5.0μm or less fibers than 0.05 .mu.m, a bulk density of the liquid absorbing layer is 0.05 g / cm ³ or more 0.15 g / cm ³ or less And
A decontamination sheet, wherein a liquid blocking layer is laminated on a side of the gas adsorption layer opposite to a side where the liquid absorption layer is laminated.   The decontamination sheet according to claim 1, wherein the fibrous material is a woven fabric, a knitted fabric, a nonwoven fabric, or a composite material thereof.   The thickness of the said liquid absorption layer is 0.1 mm or more and less than 5.0 mm, The sheet | seat for decontamination of Claim 1 or 2 characterized by the above-mentioned. The decontamination sheet according to any one of claims 1 to 3, wherein the weight of the liquid absorption layer is 30 g / m ² or more and less than 600 g / m ² .   The inner cloth, the liquid blocking layer, the gas adsorption layer, and the liquid absorption layer are stacked in the order of description, or the liquid blocking layer, the inner cloth, the gas absorption layer, and the liquid absorption layer are stacked in the order of description. The decontamination sheet according to any one of claims 1 to 4, wherein the decontamination sheet is provided.   A decontamination article comprising the decontamination sheet according to any one of claims 1 to 5.