JP6450145B2 - Nonwoven sheet for interpersonal wiping - Google Patents

Description

  The present invention relates to a nonwoven fabric sheet for interpersonal wiping.

  Conventionally, rental linen towels are often used for wiping the diapers in elderly care such as hospital facilities. Linen towels are impregnated with a special cleaning solution (water + cleaning components), warmed and used for wiping. Linen towel is a thick cotton towel material, has excellent water absorbency and heat retention after warming, and has performance suitable for wiping.

  However, linen towels are assumed to be collected and washed by specialists and reused, and it is difficult to completely disinfect the bacteria that form spores of the genus Bacillus by washing, which may cause nosocomial infections. It is also true that it contains a risk. In view of these problems, a disposable rayon spunlace nonwoven wiper has been proposed (see Patent Document 1).

International Publication WO2007 / 135862

  However, the disposable rayon spunlace non-woven wiper is inferior to the linen towel in use and a better disposable wiper is desired.

  Accordingly, an object of the present invention is to provide a nonwoven fabric for interpersonal wiping suitable for interpersonal wiping having an appropriate strength, water retention and softness in order to solve the above-mentioned problems.

  In order to solve the above problems, (1) the present invention is a nonwoven sheet for wiping, comprising 60% to 80% by weight of wood pulp and 20% to 40% by weight of meltblown fibers, It is the nonwoven fabric sheet for wipers formed by integrating the said meltblown fiber with a gas layer with respect to the wood pulp web formed with the layer.

In (2) above (1), a basis weight of ^{50g / m 2 ~90g / m 2} , void ratio SV is ^{8cm 3} / ^g~15cm 3 / g.
(3) In the above (2) or (3), the melt blown fiber is made of polypropylene.
(4) In the above (1) to (3), it is the square root of the product of the tensile strength DMDT in the vertical direction during drying and the tensile strength DCDT in the horizontal direction during drying based on JIS P8113 (DMDT × DCDT ) ^1/2 (GMT) is 2.5 to 6.0 N / 25 mm, and the decrease in GMT when wet with water is less than 10%.

(5) In the above (1) to (4), the water retention amount TWA is 8.0 g / g to 14 g / g.
(6) In the above (1) ~ (5), TS750 value by TSA softness index is 15dBV ² rms~35dBV ² rms.
(7) In the above (1) ~ (5), TS7 value by TSA softness index is 5dBV ² rms~12dBV ² rms.
(8) In the above (1) to (5), the stiffness D value according to the TSA softness index is 1 mm / N to 3.5 mm / N.

  ADVANTAGE OF THE INVENTION According to this invention, the nonwoven fabric for interpersonal wiping suitable for interpersonal wiping with moderate intensity | strength, water retention, and softness can be provided.

It is a figure which shows the measurement principle of softness measuring device TSA. It is a figure which shows an example of the analysis result of the vibration frequency of the paper sample sample by TSA. It is a figure which shows the measuring method of the rigidity D of the paper sample sample by TSA.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as “embodiments”) will be described in detail with reference to the accompanying drawings. The same number is attached | subjected to the same element through the whole description of embodiment.

  The nonwoven fabric sheet for interpersonal wiping according to an embodiment of the present invention (hereinafter referred to as “nonwoven fabric sheet”) includes 60% by weight to 80% by weight of wood pulp, and 20% by weight to 40% by weight of meltblown fiber, For the wood pulp web formed by the air layer, the melt blown fiber is formed by integrating the air layer.

  As used herein, meltblown fibers are formed by extruding a melt-melt processable polymer from a plurality of fine, usually circular capillaries, as molten threads or filaments into a high velocity gas (eg, air) stream. Fiber. The high velocity gas flow damps the filament of molten polymer material and reduces its diameter to about 0.5-10 microns. Meltblown fibers are usually discontinuous fibers. Meltblown fibers carried by a high velocity gas stream are usually deposited on the collection surface to form an irregularly dispersed fiber web.

By containing 60% by weight or more of wood pulp, sufficient hydrophilicity can be imparted and cost can be reduced. A bulky and soft texture can be imparted by forming a web of wood pulp with a gas layer.
By including 20% or more of the melt blown fiber, it is possible to impart an appropriate strength to the wood pulp web formed with an air layer without impairing the softness and bulk.

  The melt blown fiber is a thermoplastic polymer fiber, and for example, polyolefin can be used. The polyolefin is selected from the group consisting of one or more of polyethylene, polypropylene, polybutene, ethylene copolymer, propylene copolymer, and butene copolymer. In particular, the meltblown fiber is preferably made of polypropylene (PP).

(Basis weight)
The basis weight of the nonwoven sheet were measured by a method according to JIS P 8124, preferably the basis weight is ^{50g / m 2 ~90g / m 2} . If the basis weight exceeds 90 g / m ² , the basis weight is preferably 90 g / m ² or less because it becomes too thick and the dirt that has entered the gaps between wrinkles and folds cannot be wiped cleanly.

(Space ratio SV)
Nonwoven sheet is preferably void ratio SV is ^{8cm 3} / ^g~15cm 3 / g. When the space ratio SV is 8 or more and the basis weight is 50 or more, a soft sheet suitable for wiping with a soft feeling and a sense of security that hands are not soiled during wiping is obtained. When the space ratio SV is 15 cm ³ / g or more, it becomes difficult to maintain the strength of the sheet.
The space ratio refers to a specific volume (a volume occupied by a substance of unit mass) and can be determined as follows.
SV (: Specific Volume) = (thickness (mm) × 1000) / basis weight (g / m ² )

(GMT: Geometric Tensile Strength)
The nonwoven fabric sheet preferably has a dry GMT of 2.5 to 6.0 N / 25 mm and a GMT decrease of 10% or less when wet with water. When the dry GMT is lower than 2.5 N / 25 mm, it cannot be practically used, and when the dry GMT is higher than 6.0 N / 25 mm, it becomes hard.

The dry GMT of the non-woven sheet is a product of the tensile strength DMDT (Dry Machine Direction Tensile strength) in drying and the transverse tensile strength DCDT (Dry Cross Direction Tensile strength) in drying in accordance with JIS P8113. (DMDT × DCDT) ^1/2 . In addition, let the flow direction of a nonwoven fabric sheet web be a "longitudinal direction", and let the direction orthogonal to a flow direction be a "lateral direction."

(Water retention amount TWA: Total Water Absorbency)
The nonwoven fabric sheet preferably has a water retention amount TWA of 8.0 g / g to 14 g / g. If the water retention amount TWA is lower than 8.0 g / g, the cleaning liquid cannot be sufficiently contained. On the other hand, if the water retention amount TWA is too higher than 14 g / g, the cleaning liquid is consumed more than necessary.

  The water retention amount TWA is obtained as follows. First, the obtained nonwoven fabric sheet is cut into a 76 × 76 mm square test piece, and the dry weight (W1) is measured. Then, after immersing this test piece in distilled water for 2 minutes, one corner of the test piece is made to be an upper apex, and the apex and two adjacent corners are supported and extended ( RH100%), and the weight (W2) after standing for 30 minutes is measured. The value of (W2-W1) is calculated, and the value obtained by converting this value per 1 g of the nonwoven fabric sheet is defined as the water retention amount (TWAg / g).

(TS750 value)
(TS7 value)
The nonwoven fabric sheet according to the embodiment of the present invention preferably has a TS750 value according to TSA (Tissue Softness Analyzer, Nippon Luft Co., Ltd.) softness index, and the nonwoven fabric sheet has a TS750 value of 15 to 35 dBV ² rms.
The nonwoven fabric sheet according to this embodiment preferably has a TS7 value according to the TSA softness index of 5 to 12 dBV ² rms.

  The TS750 value according to the TSA softness index is calculated by using a softness measuring apparatus TSA to push a bladed rotor from the top to a non-woven sheet sample placed on a sample table from the top with a pushing pressure of 100 mN, and the rotation speed is 2.0 (/ sec. ), And the vibration of the sample stage is measured by a vibration sensor, and is represented by the intensity of the maximum peak of the first spectrum from the low frequency side automatically obtained by software on the TSA. The TS7 value according to the TSA softness index is represented by the intensity of the maximum peak of the spectrum including 6500 Hz.

When the TS750 value is lower than 15, the smoothness is too high and the function of scraping off the dirt is lowered. If the TS750 value is higher than 35, the rough texture is uncomfortable.
When the TS7 value is lower than 5, the softness stands out and gives anxiety and is difficult to wipe. When the TS7 value is higher than 12, a hard tactile feeling is obtained.

(Rigidity D)
The nonwoven fabric sheet according to this embodiment preferably has a stiffness D according to the TSA softness index of 1 to 3.5 mm / N. The measured value of stiffness D by the TSA softness index was pushed from above with a pushing force of 100 mN and 600 mN without rotating the bladed rotor with respect to the nonwoven fabric sample placed on the sample table by the softness measuring device TSA. Is expressed by the amount of deformation in the vertical direction of the sample between the pressing pressures of 100 mN and 600 mN, respectively.

(TSA)
Here, as shown in FIG. 1, the softness measuring device TSA 210 analyzes vibration data detected by various sensors when the rotated bladed rotor 204 is pressed from the nonwoven fabric sheet sample (sample) 206. By parameterizing (TS value), the softness (feel of touch) of the nonwoven fabric is quantitatively evaluated. The product name of Emtec Electronic GmbH of Germany (Japan distributor is Japan Luft Co., Ltd.) It is.

For specific measurement using TSA, (i) Install sample 206 (sample processed into a circular shape with a diameter of about 112.8 mm using emtec's sample punch) to cover the circular sample stage 205 from the outside. The outer periphery of the sample 206 is held by the sample fixing ring 208. (ii) After the bladed rotor 204 is pushed from above the sample 206 with a pushing pressure of 100 mN, the rotor 204 is rotated at a rotation speed of 2.0 (/ sec). (Iii) The vibration of the sample stage 205 is measured by the vibration sensor 203 installed in the sample stage 205, and the vibration frequency is analyzed. (iv) Next, when the indentation pressure is 100 mN and 600 mN, the deformation amount (mm / N, rigidity D) in the vertical direction when the sample 206 is deformed without rotating the rotor 204 is measured.
By the procedures (i) to (iv), the elements (smoothness, suppleness, volume feeling) of the overall hand feel value of the nonwoven fabric sheet can be quantified.

  The measurement is repeated 5 times for each sample and averaged. In addition, front and back mean both surfaces of a nonwoven fabric sheet. The sample stage 205 is installed on the base plate 201, and a force sensor 202 is disposed between the sample stage 205 and the base plate 201. Then, the pushing pressure of the bladed rotor 204 is controlled by the detection value of the force sensor 202. The bladed rotor 204 is rotated by a motor 209. In addition, emtec measurement system is used as software for analyzing vibration and parameterizing (TS value). This software includes various algorithms (for example, Base Tissue, Facial, TP, etc.), and TS7, TS750, and D are automatically acquired on the software, and these TS7, TS750, and D values are calculated. In the present invention, only TS7, TS750, and D are defined, and any algorithm can be used as long as the above measurement conditions are satisfied, and the values of TS7, TS750, and D do not vary depending on the type of algorithm.

  FIG. 2 shows an example of the analysis result of the vibration frequency of the nonwoven fabric sheet sample sample by TSA. The intensity of the maximum peak A of the first spectrum from the low frequency side is TS750, and the intensity of the maximum peak B of the spectrum including 6500 Hz (around 6500 Hz) is TS7. The maximum peak B is usually located at about 6500 Hz.

  FIG. 3 shows a method for measuring the rigidity D of the nonwoven fabric sheet sample sample by TSA. The vibration frequency of the nonwoven sheet sample sample depends on the structure of the nonwoven sheet and the number of rotations of the rotor 4, and the amplitude (spectrum intensity) depends on the height of the structure of the nonwoven sheet. TS750, which is the first peak of the spectrum (A in FIG. 2), represents smoothness and roughness. On the other hand, the frequency at which TS7 appears (in the range of 5000 to 8000 Hz, usually around 6500 Hz) is the resonance frequency of the rotor 4. Due to vibration. The rigidity D correlates with the rigidity (tensile strength) of the paper. The lower the TS7 value, the better the soft feeling (surface softness and bulk softness), and the lower the TS750 value, the better the smoothness. Moreover, the greater the value of D, the more flexible.

Hereinafter, the present invention will be described more specifically with reference to examples and comparative examples.

Example 1
PP fiber fine fiber by PP melt blow is mixed in the air layer with a fiber aggregate obtained by opening softwood bleached kraft pulp (NBKP), which is a wood pulp, and the ratio of wood pulp (NBKP ratio) is 70 wt%. A nonwoven fabric sheet containing 30% by weight of the fiber ratio (PP melt blow ratio) was prepared. The basis weight, SV, GMT, TWA, TS750, TS7, and D value are as shown in Table 1.

(Examples 2-3)
About Example 2 and Example 3, as shown in Table 1, it carried out similarly to Example 1, and created the nonwoven fabric sheet.

(Comparative Example 1)
In Comparative Example 1, as shown in Table 1, a nonwoven fabric sheet was prepared in exactly the same manner as in Example 1. The NBKP ratio, PP meltblown fiber ratio, basis weight, SV, GMT, TWA, TS750, TS7, and D value are as shown in Table 1. In Comparative Example 1, since the PP meltblown fiber ratio was high, the water retention was low and the overall rigidity was high.

(Comparative Example 2)
In Comparative Example 2, as shown in Table 1, a nonwoven fabric sheet was prepared in exactly the same manner as in Example 1. The NBKP ratio, PP meltblown fiber ratio, basis weight, SV, GMT, TWA, TS750, TS7, and D value are as shown in Table 1. In Comparative Example 2, since the PP meltblown fiber ratio was low, the strength was low and it was too soft.

(Comparative Example 3)
Comparative Example 3 is a general non-woven fabric for wiper produced by dry spunlace method using 1.7 dtex viscose rayon fiber and 1.6 dtex PET fiber. In Comparative Example 3, the bulk and water retention were low and too soft.

  As mentioned above, although this invention was demonstrated using embodiment, it cannot be overemphasized that the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above embodiment. Further, it is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

201 Base plate 202 Force sensor 203 Vibration sensor 204 Rotor 205 Sample stage 206 Sample 208 Sample fixing ring 209 Motor

Claims (7)

A non-woven sheet for interpersonal wiping,
60% to 80% by weight of wood pulp;
20% to 40% by weight of meltblown fiber,
For the wood pulp web formed in the air layer, the melt blown fiber is integrated in the air layer ,
Basis weight of ^{50g / m 2 ~90g / m 2} , interpersonal wiping a nonwoven sheet voidage SV is ^{8cm 3} / ^g~15cm 3 / g.
However, the space ratio SV is expressed by the following formula.
Space ratio SV = (thickness (mm) × 1000) / basis weight (g / m ² ) The nonwoven fabric sheet for interpersonal wiping according to claim 1 , wherein the meltblown fiber is made of polypropylene. (DMDT × DCDT) ^1/2 (GMT) is 2.5 to 6 which is the square root of the product of the tensile strength DMDT in the longitudinal direction during drying based on JIS P8113 and the tensile strength DCDT in the transverse direction during drying. The non-woven fabric sheet for interpersonal wiping according to claim 1 or 2 , wherein the non-woven fabric sheet for interpersonal wiping is 0.0 N / 25 mm, and the decrease in the GMT when wet with water is less than 10%. The nonwoven fabric sheet for interpersonal wiping according to any one of claims 1 to 3 , wherein the water retention amount TWA is 8.0 g / g to 14 g / g. Interpersonal wiping nonwoven fabric for sheets according to any one of claims 1 to 4, TS750 value by TSA softness index characterized in that it is a 15dBV ² rms~35dBV ² rms. Interpersonal wiping nonwoven fabric for sheets according to any one of claims 1 to 4 TS7 value by TSA softness index characterized in that it is a 5dBV ² rms~12dBV ² rms. The nonwoven fabric sheet for interpersonal wiping according to any one of claims 1 to 4 , wherein a stiffness D value according to a TSA softness index is 1 mm / N to 3.5 mm / N.

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