JP5378824B2 - Water absorption sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water-absorbing sheet capable of evenly spreading water all over the surface of a mat, and evenly retaining water all over the surface of a mat when again supplying water after consumption of water contained in a mat in continuous use. <P>SOLUTION: This water-absorbing sheet is made of a thermoplastic polyester fiber. The thermoplastic polyester fiber is stuck with a water absorption finishing agent which hardly melts into water which the water-absorbing sheet absorbs. The water-absorbing sheet is such that a water absorption height by Byreck method is 70 mm or more, the retention of a water absorption height by Byreck method after 10 times repeat of soaking-drying is 75% or more, and the retention of a water absorption height after 20 times repeat is 60% or more. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a water-absorbing sheet used for irrigation at the time of pot flower cultivation in the field of agriculture and horticulture, vegetable seedlings and facility cultivation, the life material field (mask, wiper, etc.) and the industrial material field (filter, wiper, etc.) The present invention relates to a sheet used in a field where high water absorption (moisture absorption) performance is required repeatedly.

  Conventionally, in pot cultivation, a large number of pots are arranged in a house, and irrigation work is performed from above the pots by human power or an automatic system. Since this irrigation method irrigates from the upper part of the pot, it takes time to irrigate, and the flowers and leaves of the pot may be damaged (caused) by water. In addition, crops cultivated in facilities such as strawberries may be damaged (caused) by irrigation water or adhesion to the leaves of the medium that occurs during irrigation. If there is such damage (disease), plants and crops that have been carefully cultivated cannot be shipped, and there is a risk of suffering significant damage.

  In recent years, in order to make the above-mentioned problems difficult to occur, a method of supplying water from a horizontal direction by placing a water retention mat under a pot using a nonwoven mat disclosed in Patent Document 1, a water retention mat on a medium Laying and irrigating through mats has become the mainstream. This method has an advantage that the supplied water is difficult to directly touch plants and crops, so that the flowers and leaves of pots are not damaged. In order to supply water to the mat, a irrigation tube is arranged along a part of the surface of the mat, and water is sprayed to the mat through a hole provided in the irrigation tube. As a result, the water spray from the irrigation tube to the mat soaked into the mat and reached the entire surface.

Japanese Patent No. 2725930

  However, in practice, it is difficult to allow the water from the irrigation tube to penetrate into the water retaining mat and spread it evenly over the entire surface of the water retaining mat. After drying, it is more difficult to spread water over the entire surface of the mat, and there are places in the water retaining mat where sufficient water cannot be retained.

  The present invention allows water to be distributed evenly over the entire surface of the mat, and in continuous use, when water is supplied again after the water contained in the mat is lost, the water can be retained evenly over the entire surface of the mat. It is an object to provide a water absorbing sheet.

The present invention relates to a water-absorbent sheet composed of a thermoplastic polyester fibers, the thermoplastic polyester fibers, the water absorption sheet has water absorption and elution hardly hygroscopic treatment agent in water is adhered, hygroscopic treatment comprising adhering The agent is a heat treatment using an aqueous solution containing an aqueous dispersion of a polyester polyether block copolymer, a water-soluble thermally reactive urethane containing a polyethylene glycol chain and block copolymerized with an isocyanate group, a cyclic amino acid, and a derivative thereof. The water absorption sheet has a water absorption height of 70 mm or more by the birec method, and the water absorption height retention rate by the birec method after repeating immersion and drying 10 times is 75% or more, The gist of the water-absorbing sheet is characterized in that the retention of water-absorbing height after repeating 20 times is 60% or more.

  Hereinafter, the present invention will be described in detail.

  The water-absorbing sheet of the present invention is composed of thermoplastic polyester fibers. Examples of the polyester constituting the fiber include a copolymerized polyester obtained by copolymerizing polyethylene terephthalate, polybutylene terephthalate, isophthalic acid, and the like, and polylactic acid. A blend of these can also be used. The melting point of the polyester is preferably 150 ° C. or higher. When the melting point is less than 150 ° C., not only does the drying process take time when the water-absorbing agent is applied, but the water-absorbing agent tends not to be sufficiently fixed to the polyester fiber. For these reasons, the melting point of the polyester is more preferably 200 ° C. or higher.

  The thermoplastic polyester fiber may be in a single-phase form or a composite form in which two types of polymers are combined. Examples of the composite form include a side-by-side type, a core-sheath type, and a split fiber type. The cross-sectional shape of the fiber may be circular or irregular. Moreover, the hollow type which a center part has a space | gap may be sufficient.

  The fiber length is not particularly limited, and may be a continuous fiber or a short fiber.

  The single yarn fineness of the polyester fiber is not particularly limited, but a range of 1 dtex to 10 dtex is preferable. When the water-absorbing sheet is a needle punched nonwoven fabric, if the single yarn fineness is less than 1 dtex, the fibers are entangled too much, the sheet is hard, the density is high, the gap between the fibers is small, The voids that can be retained are reduced, and the water retention tends to decrease. If the single yarn fineness exceeds 10 dtex, conversely, the fibers are not sufficiently entangled, it is difficult to retain water in the gaps between the fibers, and the water is not drained immediately, so that water retention is not obtained, and water absorption height is also obtained. Disappear. More preferably, it is 2.5 decitex to 8 decitex for the reason described above.

  The water absorbent sheet of the present invention has a water absorbent finishing agent attached thereto. The water-absorbing processing agent used in the present invention is an agent that hardly dissolves in the water absorbed or retained by the water-absorbing sheet, and adhesion of the water-absorbing processing agent improves water absorption and water absorption retention described later. If the water-absorbing agent is easily eluted in water, the water-absorbing agent is eluted in the water once retained by the water-absorbing sheet, and the amount of the water-absorbing agent adhering to the water-absorbing sheet is reduced. Each time water retention, irrigation and evaporation are repeated, elution is repeated in the water retained by the water-absorbing agent, and the water retention of the water-absorbent sheet is lost. In the present invention, since a water-absorbing agent that does not easily dissolve in water is used, even if water retention and irrigation / evaporation are repeated, water retention does not decrease, and water is sufficiently retained throughout the entire water-absorbent sheet. be able to.

Hygroscopic treatment agent used in the present invention, three parties of the polyester polyether block copolymer water-soluble heat-reactive urethane and cyclic amino acid and its derivatives of the aqueous dispersion and a polyethylene glycol chain containing an isocyanate group and a block copolymer of an aqueous solution containing, those containing a heat reactive type material, when the deposit is obtained by facilities to heat treatment. By this heat treatment, the water-absorbing agent is favorably supported on the sheet and is not easily eluted into the retained water. The heat treatment may be appropriately selected in consideration of the melting point of the material constituting the water-absorbing sheet, but may be applied within a temperature range of 120 to 200 ° C. for about 1 to 2 minutes. When the temperature is lower than 120 ° C., the effect of the heat treatment is not sufficiently exhibited. On the other hand, when the temperature exceeds 200 ° C., depending on the material constituting the water absorbent sheet, the sheet may be yellowed by heat. As a water-absorbing processing agent used in the present invention, a commercially available product name “SR-1801Mconc” may be mentioned.

  Although the amount of the water-absorbing processing agent attached depends on the processing agent, it is preferable that 0.1 to 2% by mass of the water-absorbing processing agent is attached as a solid content in the water-absorbing sheet.

  The water-absorbing sheet of the present invention has the above-described water-absorbing processing agent attached thereto, and the water-absorbing height by the Bayrec method is 70 mm or more. In the agricultural field, a general bench depth is about 40 mm, and the water absorption height is 70 mm or more, so that water can be sucked up well. Further, in the water absorbent sheet of the present invention, the retention rate of the water absorption height by the birec method after repeated immersion and drying is 75% or more after 10 repetitions and 60% or more after 20 repetitions. By setting the water absorption height retention after repeating the immersion-drying 10 times to 75% or more, it can be said that the decrease in water absorption due to repetition is small and the continuous use is excellent. In addition, by setting the water absorption height retention rate after repeating immersion and drying 20 times to 60% or more, the water absorption height can be sufficiently maintained when used on a bench, etc., and the entire body can be uniformly irrigated and used for a long time. Can withstand. More preferably, the water absorption height retention after repeating immersion and drying 10 times is 90% or more, and the water absorption height retention after repeating 20 times is 70% or more.

  In the invention, the form of the water-absorbing sheet is formed by laminating two web layers, one web is formed by interlacing fibers by needle punching (water retaining layer), and one web is formed by fibers. Are preferably bonded firmly by an adhesive and / or heat bonding (water absorption diffusion layer). And both webs are good to integrate by the fiber of a water retention layer being entangled in the web of a water absorption diffusion layer by needle punch processing. In the sheet composed of the two-layer web, since the water-absorbing diffusion layer composed of the web in which the fibers are firmly bonded to each other, the fibers are firmly bonded to each other. Therefore, the water retention layer composed of a web formed by entwining water well and diffusing the entire surface of the sheet, on the other hand, has a large gap between the fibers and can hold a large amount of water well. it can. Then, the fibers in the water retention layer are entangled with the water absorption diffusion layer, so that the water in the water retention layer is favorably moved to the water absorption diffusion layer through the fibers of the water retention layer. The apparent density of the water absorbent sheet is preferably 0.11 to 0.16 g / cc, and the water retention is preferably 400 to 600%.

The number of needlings in the needle punching process for obtaining the water retaining layer is not particularly specified because the state changes depending on conditions such as the type of needle, the needle depth, and the processing speed, but is approximately 50 times / cm ^{2 to} 150 Times / cm ² is good.

  In the present invention, in obtaining the water-absorbing sheet, the step of applying the water-absorbing processing agent is preferably applied to the entire sheet in the final step of the sheet manufacturing process. For example, in the case of the two-layer web as described above, the water-absorbing agent may be applied after the two-layer web is integrated. Compared to the case where only one of the webs is provided with the water-absorbing agent or the case where the two-layer webs are integrated after the water-absorbing agent is applied, the water-absorbing agent is integrated after the two layers of webs are integrated. This is because the transfer of water between layers improves.

  According to the present invention, water absorption durability is obtained by applying a water-absorbing processing agent that hardly dissolves in the water contained in the sheet. Therefore, in the water-absorbing sheet that repeats water retention, irrigation, drying, and water retention, the sheet is continuously applied to the entire surface of the sheet. Water can be included evenly throughout.

  Therefore, in the agricultural field, it can be used well for irrigation in potted flower cultivation, vegetable seedlings and institutional cultivation, etc., and in the life material field (mask, wiper, etc.) and industrial material field (filter, wiper, etc.) (Moisture absorption) Can be deployed in applications that require performance.

  Next, the water-absorbent sheet of the present invention will be described more specifically with reference to examples. In addition, this invention is not limited at all by these Examples. The characteristic values in the examples are obtained as follows.

(1) Water retention rate (%): Measured by a measurement method defined in JIS-L-1906.

(2) Water absorption (mm): Measured by the birec method defined in JIS-L-1907. In order to make it easy to read the height of the increased water, an aqueous solution in which 8 g of a water-soluble dye (stamp ink aqueous dye system S-1 (red)) manufactured by Shachihata Co., Ltd. was added to 1000 g of water was used.

(3) Retention rate of repeated water absorption height: The sheet is immersed for 15 minutes and then naturally dried. After repeating this 10 times and 20 times, the water absorption was measured and calculated by the following formula.
Retention rate (%) = [(water absorption after 10 or 20 repetitions) / initial water absorption] × 100

(4) Weight per unit area (g / m ² ): A sample of 10 cm × 10 cm was taken, weighed with a balance, converted to a mass per 1 m ² , and an average value of N = 10 was used as the basis weight.

(5) Thickness (mm): The load was 2 kPa according to JIS-L-1906.

(6) Apparent density (g / cc): calculated by the following formula.

Apparent density (g / cc) = basis weight (g / m ² ) / thickness (mm) / 1000
(7) Intrinsic viscosity (η) of polyester: Measured at 220 ° C. using an equal mass mixed solvent of phenol and ethane tetrachloride.

Example 1
Polyethylene terephthalate having a melting point of 260 ° C. and an intrinsic viscosity [η] = 0.68 was discharged from the spinneret using a spinneret at a melting temperature of 285 ° C. Then, it was sucked with air soccer at a spinning speed of 4800 m / min, and then collected on a wire net, to obtain a polyester long fiber web having a single yarn fineness of 3.9 dtex after air drawing. The obtained long fiber web had a basis weight of 200 g / m ² and a thickness of 2 mm, and this was used as a web for a water retention layer.

On the other hand, a polyester long fiber web composed of continuous fibers having a single yarn fineness of 3.3 dtex was obtained in the same manner as the above-described web. The long fiber web is passed between a pair of surface flat heat press rolls heated to 210 ° C. and pressed at a linear pressure of 490 N / cm. It was. Next, this long fiber web was placed in an acrylic binder solution in which a stock solution of a hydrophilic oil agent mainly composed of a fatty acid ester, a nonionic active agent and a cationic active agent was added in an amount of 0.5% by mass based on the solid content mass of the acrylic binder. The binder resin was impregnated in the same bath so as to be 16% by mass with respect to the solid content mass. Subsequently, drying was performed with a dryer at 160 ° C. to obtain a water-absorbing diffusion layer web having a basis weight of 60 g / m ² .

A water-retaining layer web and a water-absorbing diffusion layer web were laminated, and both were integrated by needling treatment. In the needling process, the needle density is 90 times / cm ² , the needle depth is 12.5 mm, and the processing speed is 10 m / min, using a needle punch machine (needle: PB- # 40 manufactured by Foster), and both layers are integrated. At the same time, the constituent fibers of the web for the water retention layer were entangled.

  Next, a trade name “SR-1801Mconc” manufactured by Takamatsu Oil & Fat Co., Ltd. as a water-absorbing agent was applied to the integrated sheet so as to be 0.3 mass% with respect to the entire water-absorbing sheet finally obtained. In applying the water-absorbing processing agent, drying and heat setting were performed at 180 ° C. for 1 minute so that the water-absorbing processing agent was favorably supported on the sheet (in order to make the water-absorbing sheet difficult to elute in the water retained).

The obtained water absorbent sheet had a basis weight of 258 g / m ² and a thickness of 1.76 mm.

Example 2
In Example 1, before the needling treatment, the water-absorbing layer used in Example 1 was added in an amount of 0.3% by mass based on the mass of the web, and the web of the water-absorbing diffusion layer was used. The weight per unit area was set to 60 g / m ² , the conditions for the needling treatment were a needle density of 60 times / cm ² , a needle depth of 12 mm, a processing speed of 5 m / min, and a water-absorbing processing agent was applied after the needling treatment. The same procedure as in Example 1 was performed except that there was not.

The obtained sheet had a basis weight of 247 g / m ² and a thickness of 1.94 mm.

Comparative Example 1
In Example 1, it implemented similarly to Example 1 except not having provided a water absorption processing agent. The resulting sheet had a finished basis weight of 262 g / m ² and a thickness of 1.75 mm.

  Table 1 shows the evaluation results of the obtained sheets of Examples and Comparative Examples.

Claims (2)

A water-absorbing sheet composed of thermoplastic polyester fibers, and a water-absorbing agent that hardly dissolves in water absorbed by the water-absorbing sheet is attached to the thermoplastic polyester fibers,
The adsorbed water-absorbing agent consists of an aqueous dispersion of a polyester polyether block copolymer, a water-soluble thermally reactive urethane containing a polyethylene glycol chain and block copolymerized with an isocyanate group, a cyclic amino acid, and a derivative thereof. It is attached by applying a heat treatment using an aqueous solution containing
The water absorption sheet has a water absorption height of 70 mm or more by the Bayrec method, the water absorption height retention rate by the Bayrec method after repeating immersion and drying 10 times is 75% or more, and the water absorption height is retained after 20 repetitions. A water-absorbing sheet characterized by having a rate of 60% or more. 2. The water absorbent sheet according to claim 1, wherein the apparent density of the water absorbent sheet is 0.11 to 0.16 g / cc and the water retention is 400 to 600%.