JP6338338B2 - Antibacterial water absorption pile holder - Google Patents

Description

  The present invention relates to an antibacterial water-absorbing pile holder for absorbing moisture such as wet feet from a bath.

In JP 2008-73173 A,
A pile mat comprising a base fabric and a plurality of piles, wherein the plurality of piles are disposed on the base fabric in a state where the base portion of each pile is coupled to the base fabric,
Each of the piles has a substantially cylindrical shape, and non-water-absorbing filaments of 0.05 to 0.8 denier are densely arranged radially in the radial direction around the axis of the pile and dense in the axial direction. Has been established,
An invention of a highly water-absorbing and highly drying pile mat is disclosed in which the substantially cylindrical outer peripheral surface of the pile is formed by the tip of each filament.

  This pile mat is a pile in which 0.05 to 0.8 denier extremely thin non-water-absorbing filaments are densely arranged radially in the radial direction around the axis of the pile and are densely arranged in the axial direction. Are piled up on the base fabric, so that each pile can absorb a relatively large amount of water quickly inward of each circular cross section, and is an abbreviation of a pile in a state where moisture is absorbed. The cylindrical outer peripheral portion is easy to maintain a relatively dry state, hardly causes stickiness, and is suitable as a mat for absorbing water by a pile on the mat, particularly a mat for foot cleaning.

  However, when this pile mat is used, for example, by a plurality of persons for wiping feet after bathing, if the water previously absorbed stays inside the pile, the next water absorption may not be sufficiently performed. . Moreover, when the pile mat in a water-absorbed state is left for a long time, there is a risk that mold will easily propagate.

JP 2008-73173 A

  The present invention has been made in view of the above-described problems in the prior art, and the object thereof is an antibacterial water-absorbing pile mat having excellent water absorption effect and dry feeling and having a good antibacterial effect. An object is to provide an antibacterial water-absorbing pile holder.

  The antibacterial water-absorbing pile holder of the present invention can be expressed as follows.

(1) A pile holder comprising a substrate having water absorption and a large number of piles, wherein the plurality of piles are disposed on the substrate in a state where the base of each pile is bonded to the substrate. ,
The pile forming yarns forming the respective piles have a substantially cylindrical shape, are densely arranged so as to be radially in the radial direction around the axis of the pile forming yarns, and are densely arranged in the axial direction. A filamentous core portion comprising a filament of hydrophobic fibers of 03 to 1.5 denier and a plurality of monofilament yarns of hydrophobic fibers along the axis of the pile forming yarn;
The multiple filaments are held by the filamentous core , do not contain an antibacterial agent,
At least one of the monofilament yarns constituting the filamentous core portion contains an antibacterial agent,
A substantially cylindrical outer peripheral surface of the pile forming yarn is formed by a tip portion of the filament,
The filament becomes a higher density state toward the radially inward,
An antibacterial agent containing at least one of the monofilament yarns constituting the filamentous core in moisture that is absorbed radially inward of the pile forming yarn and guided to the substrate having water absorption along the filamentous core An antibacterial water-absorbing pile holder characterized by having an antibacterial effect .

  A pile forming yarn forming a plurality of piles arranged on a substrate having water absorption has a density of 0.03 to 1.5 denier held by a filamentous core portion of a monofilament yarn of hydrophobic fibers along the axis. A large number of very thin filaments of hydrophobic fibers are densely arranged radially in the radial direction around the axis of the pile forming yarn and are densely arranged in the axial direction, and the filaments become more radially inward. Becomes a high density state.

  Therefore, since a strong water absorption force acts inward of the pile forming yarn due to capillary action, the pile forming yarn of each pile can quickly absorb a relatively large amount of water inward in the radial direction.

  On the contrary, the substantially cylindrical outer periphery of the pile-formed yarn that has absorbed water has a low moisture content due to capillary action. In other words, the substantially cylindrical outer peripheral surface portion of the pile forming yarn having a substantially cylindrical shape is formed by the tip portion of the filament of the hydrophobic fiber, so that the area occupied by the fiber is relatively small and the fiber itself is not wet. Maintain state.

  Further, since the pile forming yarn in each pile has a thread-like core portion made of a monofilament yarn of hydrophobic fibers along its axis, the moisture absorbed in the radial direction by capillary action in the pile forming yarn of each pile Is efficiently guided to the substrate having water absorption along the filamentous core.

  For this reason, in the pile forming yarn of each pile, moisture absorbed radially inward is prevented from staying in the center portion, and further, the pile forming yarn is further moved radially inward from the substantially cylindrical outer peripheral surface portion. This prevents the water absorption that occurs and the sticky feeling on the outer periphery of the pile-forming yarn.

  In addition, the moisture that is absorbed radially inward of the pile-forming yarn and guided to the substrate having water absorption along the filamentous core portion contains at least one of the monofilament yarns constituting the filamentous core portion. Since the moisture content is low on the radially outer side of the pile forming yarn, each pile and the substrate having water absorption can effectively exhibit antibacterial performance.

  Therefore, this pile holder can quickly absorb a large amount of water such as wet feet, and can realize water absorption and dry feeling that is less likely to cause stickiness, and exhibits a good antibacterial effect. obtain.

  For this reason, this pile holder is optimal for use in absorbing water by the pile.

  Furthermore, this pile holder is optimal as a foot wipe. In addition, it is possible to realize a water-absorbing and dry feeling that hardly causes stickiness, and to exhibit a good antibacterial effect, so that it is suitable for a cleaning tool that absorbs water by a pile, an umbrella storage tool, and a towel.

  (2) The antibacterial water-absorbing pile holder according to (1), wherein the thread-like core portion is composed of 2 to 300 monofilament yarns of 1 to 1000 denier hydrophobic fibers along the axis of the pile forming yarn.

  (3) The antibacterial water-absorbing pile holder according to (1), wherein the thread-like core portion is composed of 2 to 24 monofilament yarns of 10 to 300 denier hydrophobic fibers along the axis of the pile forming yarn.

  (4) The antibacterial water-absorbing pile holder according to any one of (1) to (3), wherein the pile formed by the pile-forming yarn has a substantially cylindrical shape with a free end.

  The pile in this case has a substantially cylindrical shape from the base portion to the tip portion, and a large number of extremely thin hydrophobic particles of 0.03 to 1.5 denier are formed by a filamentous core portion made of a monofilament yarn of hydrophobic fibers along the axis. The filaments of the conductive fiber are densely arranged radially in the radial direction around the axis of the pile forming yarn and are held in the axially dense state, and the substantially cylindrical outer peripheral surface of the pile is the filament. The filament becomes denser as it goes inward in the radial direction.

  In the substantially cylindrical portion of the pile, the density of the ultrafine hydrophobic filaments increases inward in the radial direction, and a strong water absorption force acts by capillary action. Therefore, each pile can absorb a relatively large amount of water rapidly inward in the radial direction.

  Conversely, the substantially cylindrical outer peripheral portion of the pile that has absorbed water has a low moisture content due to capillary action. In other words, since the substantially cylindrical outer peripheral surface portion of the pile is formed by the tip portion of the filament of the hydrophobic fiber, the area occupied by the fiber is relatively small, and the fiber itself maintains a non-wetting state.

  Furthermore, since each pile has a thread-like core portion made of a monofilament thread of hydrophobic fibers along its axis, the moisture absorbed radially inward by capillary action in each pile is along the thread-like core portion. , Efficiently led to a substrate having water absorption.

  Therefore, moisture absorbed radially inward of each pile is prevented from staying in the radial central portion of the pile, and further water absorption from the substantially cylindrical outer peripheral surface portion of the pile to the radially inner side is prevented. In addition, it is possible to prevent the sticky feeling from occurring in the substantially cylindrical outer peripheral surface portion of the pile.

  In addition, antibacterial activity caused by an antibacterial agent contained in at least one of the monofilament yarns constituting the filamentous core is absorbed in moisture that is absorbed radially inward of the pile and guided to the substrate having water absorption along the filamentous core. Since the moisture content is low on the radially outer side of the pile, each pile and the water-absorbing substrate can effectively exhibit antibacterial performance.

  Therefore, this pile holder can quickly absorb water such as wet feet and the like, and can realize water absorption and dryness that are less likely to cause stickiness, and can exhibit a good antibacterial effect.

(5) The tip of the substantially cylindrical pile is formed by a large number of filaments of 0.03 to 1.5 denier hydrophobic fibers that are held by the thread core and are closely arranged to form a radial shape. And has a substantially convex curved shape,
The antibacterial water-absorbing pile holder according to (4), wherein the substantially convex curved surface is formed by the tips of the filaments.

  In this case, the tip of the pile is formed by a large number of filaments of 0.03 to 1.5 denier hydrophobic fibers that are held in close contact with the thread-like core and are radially arranged to form a substantially convex curved surface. The substantially convex curved surface is formed by the tips of the filaments.

  Therefore, at the tip of the pile, the density of the ultrafine hydrophobic filaments increases three-dimensionally inward (for example, the center of the bottom of the substantially hemisphere if it is an upwardly convex hemisphere). A strong water-absorbing force acts due to the phenomenon, and the density of the ultrafine hydrophobic filaments increases in the radially inward direction in the substantially cylindrical portion other than the tip portion, and the strong water-absorbing force acts due to the capillary phenomenon. Therefore, each pile can absorb a relatively large amount of water rapidly inward in the radial direction.

  Conversely, the substantially convex curved outer peripheral portion of the tip of the pile that has absorbed water and the substantially cylindrical outer peripheral portion of the pile have a low moisture content due to capillary action. Furthermore, the substantially convex curved outer peripheral portion of the tip of the pile and the substantially cylindrical outer peripheral surface of the pile are formed by the tip of the filament of the hydrophobic fiber, so that the area occupied by the fiber is relatively small, and The fiber itself remains non-wetting.

  Furthermore, since each pile has a thread-like core portion made of a monofilament thread of hydrophobic fibers along its axis, the moisture absorbed by the capillarity inward or radially inward of each pile is Along the thread-shaped core portion, it is efficiently guided to a substrate having water absorption.

  For this reason, moisture absorbed in the inner end of each pile or radially inward of each pile is prevented from staying in the center of the pile in the radial direction, and the substantially convex curved outer periphery of the pile tip is also provided. To prevent further water absorption from the inner part of the pile or from the substantially cylindrical outer peripheral surface of the pile to the inner side in the radial direction, and to feel the sticky to the substantially convex curved outer periphery of the pile tip or the substantially cylindrical outer peripheral surface of the pile Is prevented from occurring.

  In addition, moisture that is absorbed inward of the tip of the pile or radially inward of the pile and guided to the substrate having water absorption along the filamentous core portion is at least one of the monofilament yarns that constitute the filamentous core portion. The antibacterial effect of the antibacterial agent that is contained, and the moisture content is low on the surface side of the tip of the pile and the outer side in the radial direction of the pile, so each pile and the substrate having water absorption are effective. Can exhibit antibacterial performance.

  Therefore, this pile holder can quickly absorb water such as wet feet and the like, and can realize water absorption and dryness that are less likely to cause stickiness, and can exhibit a good antibacterial effect.

  (6) The antibacterial water-absorbing pile holder according to (5), wherein the pile has a height / base diameter ratio of 1/2 to 3/1 and is self-supporting with respect to the surface of the substrate.

  In this case, the tip of the pile is formed by a large number of filaments of 0.03 to 1.5 denier hydrophobic fibers that are held in close contact with the thread-like core and are radially arranged to form a substantially convex curved surface. . The base side of the pile has a substantially cylindrical shape, and a filamentous core portion of 0.03 to 1.5 deniers along the axis makes a large number of filaments of hydrophobic fibers approximately in the radial direction about the axis of the pile forming yarn. The cylindrical outer peripheral surface of the pile is formed by the tip portion of the filament. However, the pile height / base diameter ratio is 1/2 to 3/1, which is relatively low compared to the base diameter.

  Therefore, the pile is excellent in self-supporting property, and moisture absorbed radially inward by capillary action is more efficiently guided along the thread-like core portion to a substrate having water absorption. Therefore, in the pile forming yarn of each pile, it is more effectively prevented that moisture absorbed radially inward is retained in the central portion, and the inner diameter in the radial direction from the substantially cylindrical outer peripheral surface portion of the pile forming yarn. It is more reliably prevented that further water absorption toward the side is prevented and that the sticky feeling is generated on the outer peripheral portion of the pile forming yarn.

  In addition, the moisture that is absorbed radially inward of the pile-forming yarn and guided to the substrate having water absorption along the filamentous core portion contains at least one of the monofilament yarns constituting the filamentous core portion. Therefore, the moisture content of the pile-forming yarn on the radially outer side of the pile forming yarn is more reliably reduced, so that each pile and the substrate having water absorption can exhibit the antibacterial performance more effectively.

  (7) The antibacterial water-absorbing pile holder according to any one of (1) to (3), wherein the pile is a loop-shaped pile formed so that the pile-forming yarn has a ring shape.

  The pile in this case is a loop-like pile formed so that the pile-forming yarns form an annular shape, and therefore, the pile-forming yarn having a substantially cylindrical shape is curved to form a loop-like pile, and is bonded to the substrate. With two bases.

  (8) The above loop-shaped pile has a ratio of (loop-shaped “pile height” / (diameter of pile-forming yarn)) of 1/1 to 5/1 and (at both bases of the loop-shaped pile) The ratio of (distance between centers) / (diameter of pile forming yarn) is 3/1 or less, and is supported on the base by a large number of filaments at both bases of the loop-like pile, and is independent on the surface of the base. The antibacterial water-absorbing pile holder according to (7).

  (9) The looped pile has a ratio of [(pile forming yarn length) − (distance between centers of both bases of the looped pile)] / (pile forming yarn diameter) of 1/1 to 10/1, and the ratio of (distance between the centers of both bases of the looped pile) / (diameter of pile forming yarn) is 3/1 or less, and a large number of filaments at both bases of the looped pile The antibacterial water-absorbing pile holder according to (7), which is supported by the substrate and has self-supporting property with respect to the surface of the substrate.

  The pile-forming yarn forming the loop-like pile of the antibacterial water-absorbing pile holder of (8) and (9) has a substantially cylindrical shape, and the filament is radially in the radial direction about the axis of the pile-forming yarn. The cylinder is formed in such a manner that the filaments are densely arranged in the axial direction (that is, the filaments are arranged so as to be radially arranged in the radial direction and densely arranged in parallel in the axial direction). The shape outer peripheral surface is formed by the tip of the filament.

A loop-shaped pile formed of such pile-forming yarns
The ratio of (the height of the loop pile) / (the diameter of the pile forming yarn) is 1/1 to 5/1,
Or
The ratio of [(pile forming yarn length) − (distance between centers of both bases of looped pile)] / (pile forming yarn diameter) is 1/1 to 10/1.
That is, the height is lower than the diameter of the pile forming yarn,
And the ratio of (distance between the centers of both bases of the looped pile) / (diameter of pile forming yarn) is 3/1 or less,
That is, the distance between the centers of both bases of the loop pile is not too wide.

  Therefore, the loop pile is supported on the base by a large number of filaments at both bases, and the piles rising from both bases are connected in a loop, and the height is lower than the diameter of the pile forming yarn and the loop Since the distance between the centers of the two base portions of the pile-like pile is not too wide, these synergistic effects provide extremely good self-supporting property and flexible elasticity against pressing in the height direction of the loop-like pile.

If this point is described in more detail,
A pile-forming yarn having a structure in which filaments are densely arranged in a radial direction and densely arranged in parallel in an axial direction is curved along a predetermined surface (loop surface) to form a loop-like pile The looped pile is disposed on the base with both bases bonded to the base, and therefore, on the inner peripheral side of the looped pile, The loop piles in a configuration in which the filaments close to each other in the axial direction are parallel to each other, overlap each other at a slight angle, cross over each other, and compress together. That is, a pile that forms a loop along a predetermined surface
(A) At both bases of the loop pile, it is supported on the base by a large number of filaments that are densely arranged radially in the radial direction and densely arranged in the axial direction.
(B) On the inner circumference side of the loop pile, the filaments close to each other in the axial direction among the densely arranged filaments may overlap, intersect, or compress each other. Therefore, the deformation of the looped pile that can be caused by external force is suppressed and its stability is enhanced, and the suppression of deformation and the realization of the stability are due to the overlapping, crossing, compression, etc. of the filaments. Flexible elasticity against
But
(C) Since the height is lower than the diameter of the pile forming yarn and the distance between the centers of both bases of the loop pile is not too wide,
Due to these synergistic effects, it has good independence and flexible elasticity against the pressing in the height direction of the looped pile.

  Therefore, since these loop-shaped piles are excellent in self-supporting property, moisture absorbed radially inward by capillary action is more efficiently guided to the substrate having water absorption along the filamentous core portion.

  As a result, in the pile forming yarn of each loop-shaped pile, moisture absorbed radially inward is prevented from staying in the central portion, and is also radially inward from the substantially cylindrical outer peripheral surface portion of the pile forming yarn. It is more reliably prevented that further water absorption toward the side is prevented and that the sticky feeling is generated on the outer peripheral portion of the pile forming yarn.

  In addition, the moisture that is absorbed radially inward of the pile-forming yarn and guided to the substrate having water absorption along the filamentous core portion contains at least one of the monofilament yarns constituting the filamentous core portion. Therefore, the moisture content of the pile-forming yarn on the radially outer side of the pile forming yarn is more reliably reduced, so that each pile and the substrate having water absorption can exhibit the antibacterial performance more effectively.

  (10) The antibacterial water-absorbing pile holder according to any one of (1) to (9), wherein a filamentous core portion made of a monofilament of hydrophobic fibers in the pile-forming yarn is subjected to a hydrophilic treatment.

  In this case, the moisture absorbed radially inward of the pile forming yarn by capillary action is efficiently guided to the substrate having water absorption along the filamentous core portion of the monofilament yarn of the hydrophobic fiber subjected to the hydrophilic treatment. It is burned.

  Therefore, it is possible to achieve excellent water absorption and dry feeling and to exhibit antibacterial effects.

(11) An antibacterial agent is attached to a large number of 0.03 to 1.5 denier hydrophobic fiber filaments and / or monofilament yarns constituting the filamentous core constituting the pile forming yarn in the pile (1) The antibacterial water-absorbing pile holder according to any one of (10) to (10).

  In the pile-forming yarn of each pile, a strong water absorption force acts inward due to capillary action caused by densely arranged filaments, and a relatively large amount of water is rapidly absorbed radially inward.

Since the antibacterial agent is attached to the filaments of a large number of 0.03 to 1.5 denier hydrophobic fibers and / or the monofilament yarns constituting the thread-like core portion constituting the pile forming yarn in the pile, the diameter of the pile forming yarn The antibacterial effect of the antibacterial agent adhering to these filaments reaches the moisture that is absorbed inward in the direction and guided to the substrate having water absorption along the filamentous core.

  (12) In a large number of filaments of 0.03 to 1.5 denier hydrophobic fibers constituting the pile forming yarn in the above pile, 1.5 to 0.5 radially forming a radial direction about the axis of the pile forming yarn The antibacterial water-absorbing pile holder according to any one of (1) to (10), which has a filament of 5-denier hydrophobic fiber and contains an antibacterial agent in a dispersed manner in the circumferential direction and the axial direction of the pile.

  In the pile-forming yarn of each pile, a strong water absorption force acts inward due to capillary action caused by densely arranged filaments, and a relatively large amount of water is rapidly absorbed radially inward.

  Among a large number of filaments of 0.03 to 1.5 denier hydrophobic fibers constituting the pile forming yarn in the pile, a hydrophobicity of 1.5 to 5 denier that is radially radial about the axis of the pile forming yarn The filaments of the conductive fiber containing the antibacterial agent are dispersed in the circumferential direction and the axial direction of the pile.

  These 1.5 to 5 denier filaments can more reliably contain an antibacterial agent and exhibit an antibacterial effect.

  The antibacterial effect of the antibacterial agent contained in the 1.5 to 5 denier filament is applied to the moisture that is absorbed inward in the radial direction of the pile forming yarn and guided to the substrate having water absorption along the thread core. .

  The antibacterial water-absorbing pile holder of the present invention can rapidly absorb a large amount of water such as wet feet after bathing, and can realize water absorption and dryness that are less likely to cause stickiness, and has a good antibacterial effect. Can demonstrate. Therefore, in addition to a water-absorbing mat such as a foot-wiping mat, it is suitable for a cleaning tool that absorbs water by a pile, an umbrella storage tool, a towel, and the like.

It is a typical front view. It is a typical expanded cross-sectional view of a pile. It is a schematic diagram which shows a part of process of forming a pile with a molding yarn. It is a typical front view of another pile.

  [1] An embodiment of the present invention will be described with reference to the drawings.

  (1) FIGS. 1 to 3 relate to an antibacterial water-absorbing pile mat as an example of an embodiment of an antibacterial water-absorbing pile holder according to the present invention.

  This antibacterial water-absorbing pile mat A comprises a base fabric S (substrate) having water absorption and a number of substantially cylindrical piles P, and the base (lower end in FIG. 1) of each pile P is the base fabric S. The multiple piles P are arranged on the base fabric S in a joined state.

  Each pile P in which the base portion is bonded to the base fabric S has a substantially cylindrical shape from the base portion to the distal end portion (it is not required to stand upright as shown in FIG. 1, which is a schematic diagram), and is generally bent to some extent. And a filamentous core C made of monofilaments of hydrophobic fibers along the axis of the filament F of many very thin polyester fibers of 0.5 denier (water absorption is 5 at 20 ° C. and 65% relative humidity). % Of hydrophobic fibers (the same applies hereinafter)) is held in a state of being densely arranged radially in the radial direction around the axis of the pile P and being densely arranged in the axial direction. The substantially cylindrical outer peripheral surface is formed by the tip of the filament F.

  The tip portion Pa of the pile P is formed by a large number of filaments F of 0.5 denier polyester fibers that are held in close proximity so as to be held radially by the thread-shaped core portion C to form a substantially convex curved shape. The curved surface is formed by the tips of the filaments F.

  The filamentous core C along the axis of the pile P consists of four monofilament yarns of 50 denier polyester fibers (hydrophobic fibers having a water absorption of 5% or less at 20 ° C. and 65% relative humidity. The same applies hereinafter). Each monofilament yarn contains an antibacterial agent by kneading the antibacterial agent.

  At the tip end portion Pa of the pile P, the density of the ultrafine hydrophobic filament F increases in three dimensions inward (for example, the center portion of the bottom surface of the substantially hemisphere if it is an upwardly convex hemisphere). A strong water absorption force acts by the capillary phenomenon, and the density of the ultrafine hydrophobic filaments F increases inward in the radial direction in the substantially cylindrical portion other than the tip portion Pa, and the strong water absorption force acts by the capillary phenomenon. Therefore, each pile P can absorb a relatively large amount of water quickly inward in the radial direction.

  Conversely, the substantially convex curved outer peripheral portion of the tip portion Pa of the pile P that has absorbed water and the substantially cylindrical outer peripheral portion of the pile P are in a state of low moisture content due to capillary action. In other words, the substantially convex curved outer peripheral portion of the tip portion Pa of the pile P and the substantially cylindrical outer peripheral surface portion of the pile P are formed by the tip portion of the filament F of the hydrophobic fiber, so that the area occupied by the fibers is relatively small. Small and the fibers themselves remain non-wetting.

  Further, each pile P has a thread-like core portion C made of monofilament yarn of hydrophobic fibers along the axis thereof, and therefore, in each pile P, it is absorbed inward of the tip end portion Pa and radially inward by capillary action. The moisture is efficiently guided along the thread-like core C to the base fabric S having water absorption.

  Therefore, moisture absorbed in the inner end of each pile P or in the inner radial direction of each pile P is prevented from staying in the central portion in the radial direction of the pile P, and the distal end Pa of the pile P is prevented. Hinder further water absorption from the substantially convex curved outer peripheral portion of the pile P to the inner side of the pile P or radially inward from the substantially cylindrical outer peripheral surface portion of the pile P, or the substantially convex curved outer peripheral portion of the pile P or the pile. It is possible to prevent the sticky feeling from occurring on the substantially cylindrical outer peripheral surface portion of P.

  In addition, the moisture core portion C is absorbed into moisture that is absorbed inside the tip end portion Pa of the pile P or radially inward of the pile P and guided to the base fabric S having water absorption along the filament core portion C. The antibacterial effect of the antibacterial agent contained in each of the monofilament yarns to be formed is effective, and the moisture content is low on the surface side of the tip portion Pa of the pile P and on the radially outer side of the pile P. The base fabric S having water absorption can effectively exhibit antibacterial performance.

  A number of piles P in this antibacterial water-absorbing pile mat A are strong twists using a filament F of a 0.5 denier polyester fiber as a decorative yarn and two monofilament yarns containing an antibacterial agent of 50 denier polyester fiber as a core yarn. With the molding yarn M of (500 T / m), it can be formed as follows.

  That is, the strong twist molding yarn M is penetrated from the back side to the front side (upper side in FIG. 3) of the base fabric S (substrate) having water absorption in a tensioned state, so that the strong twist molding is formed on the front side of the base fabric S. The yarn M is projected in a double fold, and a tensile force is applied to the folded portion, which is the tip of the protruded strong twist molding yarn M, so that the tension of the strong twist molding yarn M protruding in a folded manner Is maintained, and then the tensile force is released, so that the strong twisted yarn M is twisted by itself to form one pile. By heat-treating this, the twisted strong knitted yarn M is twisted more strongly by itself, forming a substantially cylindrical shape with the thread-shaped core C as the center, and the tip portion Pa of the pile P is the tip of the radial filament F. A large number of piles P having a substantially convex curved surface shape can be formed by the portion.

  1 to 3 are schematic diagrams for explanation, and do not show actual objects.

  (2) FIG. 4 shows an antibacterial water absorbent pile mat as another example of the embodiment of the antibacterial water absorbent pile holder of the present invention.

  This antibacterial water-absorbing pile mat B includes a base fabric S (substrate) having water absorption and a large number of loop-shaped piles R, and a pair of base portions of the respective loop-shaped piles R are bonded to the base fabric S. In the state, the multiple piles R are disposed on the base fabric S.

  Each of the loop-shaped piles R is an annular shape (for example, substantially formed only by the pile-forming yarns T) or a portion along the predetermined plane. Both base portions of the pile R are slightly separated from each other to form a pile forming yarn T and a base fabric S (a ring formed by the base fabric S between the base portions of the pile R), and both base portions (both in FIG. 4 which is a schematic diagram). It can be formed as being bonded to the base fabric S at the lower end).

  The pile-forming yarn T forming the loop-like pile R has a substantially cylindrical shape, and a large number of very thin polyesters having a denier of 0.5 denier are formed by a filamentous core C made of monofilament yarns of hydrophobic fibers along the axis. Fiber filaments F (hydrophobic fibers having a water absorption of 5% or less at 20 ° C. and a relative humidity of 65%; the same shall apply hereinafter) are densely arranged so as to radiate substantially radially about the axis of the pile-forming yarn T. The pile-forming yarn T is held in a state of being densely arranged in the axial direction, and the substantially cylindrical outer peripheral surface of the pile forming yarn T is formed by the tip of the filament F.

  The thread-like core portion C along the axis of the pile forming yarn T is composed of four monofilament yarns of 50 denier polyester fibers (hydrophobic fibers having a water absorption of 5% or less at 20 ° C. and 65% relative humidity. The same applies hereinafter). . Each monofilament yarn contains an antibacterial agent by kneading the antibacterial agent.

  In the pile-forming yarn T forming the loop-shaped pile R, the density of the ultrafine hydrophobic filaments F increases inward in the radial direction, and a strong water absorption force acts by capillary action. Therefore, each pile R can absorb a relatively large amount of water quickly inward in the radial direction.

  On the contrary, the substantially cylindrical outer periphery of the pile-forming yarn T that has absorbed water is in a state of low moisture content due to capillary action. In other words, the substantially cylindrical outer peripheral surface portion of the pile forming yarn T is formed by the tip portion of the filament F of the hydrophobic fiber, so that the area occupied by the fiber is relatively small and the fiber itself maintains a non-wetting state. To do.

  Further, since the pile forming yarn T of each pile R has a thread-like core portion C made of a monofilament yarn of hydrophobic fibers along the axis thereof, the moisture absorbed in the radial direction in each pile R by capillary action. Is efficiently guided along the thread-like core C to the base fabric S having water absorption.

  Therefore, the moisture absorbed radially inwardly in the pile forming yarn T of each pile R is prevented from staying in the central portion in the radial direction of the pile forming yarn T, and the substantially cylindrical outer peripheral surface portion of the pile forming yarn T. This prevents the water absorption further inward in the radial direction from occurring and prevents the pile R from feeling sticky on the substantially cylindrical outer peripheral surface portion.

  In addition, the monofilament yarns that constitute the thread-like core part C are contained in the moisture that is absorbed radially inward of the pile-forming thread T and guided to the base fabric S having water absorption along the thread-like core part C. The antibacterial effect of the antibacterial agent is exerted, and the moisture content is low on the radially outer side of the pile forming yarn T. Therefore, each pile R and the base fabric S having water absorption effectively exhibits the antibacterial performance. obtain.

  A number of piles R in the antibacterial water-absorbing pile mat B are molding yarns in which a filament F of 0.5 denier polyester fiber is used as a decorative yarn, and two monofilament yarns containing an antibacterial agent of 50 denier polyester fiber are used as a core yarn. Can be formed by using a method of manufacturing a tufted loop pile mat.

  Note that FIG. 4 is a schematic diagram for explanation, and does not show the actual product.

  [2] Embodiments of the present invention will be further described, including forms other than those described above.

  The antibacterial water-absorbing pile holder of the present invention comprises a substrate having water absorption and a large number of piles, and the numerous piles are disposed on the substrate in a state where the base of each pile is bonded to the substrate. It is what.

  (1) The pile is formed by a pile forming yarn having a substantially cylindrical shape.

  The pile-forming yarn is a filament of a large number of 0.03 to 1.5 denier hydrophobic fibers that are densely arranged radially in the radial direction about the axis of the pile-forming yarn and densely arranged in the axial direction. And 1 to 1000 denier hydrophobic filament monofilament yarns along the axis of the pile forming yarn. The pile forming yarn is generally easily bent to some extent.

  The many filaments are held by a thread-like core portion, and the substantially cylindrical outer peripheral surface of the pile forming yarn is formed by the tip portion of the filament. The filament becomes denser as it goes inward in the radial direction of the pile forming yarn.

  (2) Each filament is a single fiber in which a hydrophobic continuous long fiber is cut to a required length. The required length of each filament can usually depend on the diameter of the pile forming yarn.

  As the filament, for example, polypropylene fiber or polyethylene fiber can be used in addition to the polyester fiber.

  The water absorption rate of the filament can be, for example, 3% or less at 20 ° C. and a relative humidity of 65%. Preferably, it is 2% or less, more preferably 1% or less at 20 ° C. and 65% relative humidity.

  The fineness of each filament is 0.03 to 1.5 denier, preferably 0.05 to 0.8 denier.

  The diameter of the pile forming yarn can be 3 to 10 mm, for example. It is preferably 4 to 8 mm.

  For example, about 150,000 to 250,000 filaments per 1 cm length in the axial direction of the pile forming yarn (the number of filaments can be small and large depending on the fineness of the filament). It can be densely arranged radially in the radial direction centered on the axis, and densely arranged in the axial direction. In the case of a pile having a substantially cylindrical shape with a free end (for example, formed by twisting two folded pile forming yarns), the filament is, for example, 20,000 to 50 per cm in the axial direction of the pile. About 10,000 (the number can be small and large depending on the fineness of the filament. When the filament is 0.7 denier, for example, about 50,000 per 1 cm of the axial length of the pile) However, it can be densely arranged radially in the radial direction around the axis of the pile and densely arranged in the axial direction.

  Further, among the many filaments of 0.03 to 1.5 denier hydrophobic fibers constituting the pile forming yarn, the hydrophobic fiber of 1.5 to 5 denier that radiates almost radially about the axis of the pile forming yarn. It is possible to have a filament of a conductive fiber containing an antibacterial agent in a dispersed manner in the circumferential direction and the axial direction of the pile.

  The filament containing the antibacterial agent can be obtained by kneading the antibacterial agent and spinning the filament.

  The filament containing the antibacterial agent has good antibacterial action durability.

  As the antibacterial agent, an inorganic antibacterial agent or an organic antibacterial agent that can suppress the growth of bacteria, fungi and the like can be used. Examples of inorganic antibacterial agents include those that use metal ions such as silver, zinc, and copper. Examples of organic antibacterial agents include imidazole, thiazole, pyridine, triazine, amine, and quaternary. Examples include antibacterial substances such as ammonium, phenol, cresol, and sulfone, but they are not limited to these.

  (3) The thread-like core portion along the axis of the pile forming yarn is made of a monofilament yarn of a hydrophobic fiber such as a polyester fiber, a polypropylene fiber, or a polyethylene fiber. The fineness of the monofilament yarn is 1 to 1000 denier.

  The thread-like core portion may preferably be composed of 2 to 24 monofilament yarns of 10 to 300 denier hydrophobic fibers.

  In addition to such a monofilament yarn, a heat-sealed yarn for melting and holding by heating can be used in combination with the filamentous core portion.

  At least one of the monofilament yarns constituting the filamentous core portion (that is, part or all of the plurality of monofilament yarns) contains an antibacterial agent.

  The monofilament yarn containing the antibacterial agent can be obtained by kneading the antibacterial agent and spinning the monofilament yarn.

  The monofilament yarn containing the antibacterial agent has good antibacterial action durability.

  As the antibacterial agent, an inorganic antibacterial agent or an organic antibacterial agent that can suppress the growth of bacteria, fungi and the like can be used. Examples of inorganic antibacterial agents include those that use metal ions such as silver, zinc, and copper. Examples of organic antibacterial agents include imidazole, thiazole, pyridine, triazine, amine, and quaternary. Examples include antibacterial substances such as ammonium, phenol, cresol, and sulfone, but they are not limited to these.

  In addition to the fact that at least one of the monofilament yarns constituting the thread-like core portion contains an antibacterial agent, the filament and / or monofilament yarn constituting the pile forming yarn is coated with an antibacterial agent using a binder or the like. It is also possible to apply a treatment for attaching an antibacterial agent such as

  Moreover, the filamentous core part which consists of the monofilament thread | yarn of the hydrophobic fiber in a pile formation thread | yarn can be made into the hydrophilic treatment.

  Hydrophilization treatment refers to imparting wettability to water or improving wettability to water in hydrophobic synthetic fibers or other hydrophobic fibers.

  Examples of the hydrophilic treatment for hydrophobic fibers include various surfactants such as nonionic and anionic, polyether-modified silicones such as polyoxyethylene-modified silicon and polyoxypropylene-modified silicon, polyethylene oxide / polypropylene oxide Hydrophilic treatment with a hydrophilizing agent such as a polyether such as a block copolymer, a polyglycerin ester such as polyglycerin oleate, or an alkynolamide such as stearic acid diethanolamide is possible.

  In addition, a large number of filaments of hydrophobic fibers of 0.03 to 1.5 denier densely arranged radially in the radial direction around the axis of the pile forming yarn and densely arranged in the axial direction are also like this. Can be subjected to a hydrophilic treatment.

  (4) In the present invention, the pile formed by the pile forming yarn and having the base portion bonded to the base body has a substantially cylindrical shape with a free end at the tip (need to stand upright as shown in FIG. 1 which is a schematic diagram) However, it is generally easy to bend to some extent.)

Also in this case
The tip of the pile having a substantially cylindrical shape is formed by a large number of filaments of hydrophobic fibers of 0.03 to 1.5 denier that are held tightly so as to form a radial shape by being held by the filamentous core, and are substantially convex curved surfaces It has a shape, and its substantially convex curved surface can be formed by the tip of the filament.

  Such a pile is, for example, a strong twist (for example, 500 to 700 T / m) using a filament of a hydrophobic fiber of 0.03 to 1.5 denier as a decorative yarn and a monofilament yarn of a plurality of hydrophobic fibers as a core yarn. ) Molding thread can be formed as follows. That is, by passing the strong twist molding yarn under tension from the back side of the base fabric (substrate) to the front side, the strong twist molding yarn is projected in a folded manner on the front side of the base fabric, and the protruding strong twist By applying a tensile force in the protruding direction to the folded part that is the tip of the molding yarn, maintaining the tension of the strong twisting molding yarn protruding in a double fold, then releasing the tensile force, The mold yarn twists itself to form a single pile. By heat-treating this, the strongly twisted yarn in the twisted state is twisted more strongly by itself, forming a substantially cylindrical shape centering on the thread core, and the tip of the pile is a substantially convex curved surface by the tip of the radial filament A pile having a shape can be formed.

  Further, the pile whose tip portion has a substantially convex curved surface has a height / base diameter ratio of 1/2 to 3/1 and can be self-supporting with respect to the surface of the substrate.

  (5) In the present invention, the pile formed by the pile-forming yarn and having the base portion bonded to the substrate may be a loop-like pile formed so that the pile-forming yarn forms an annular shape.

  This loop-shaped pile can be formed by making the whole or part of a substantially cylindrical pile-forming yarn curved to form an annular shape and bonded to the base fabric (substrate) at both bases. It is preferable that the loop-shaped pile has an annular shape along a predetermined plane.

Such a looped pile is
(Loop-shaped “pile height” / (pile-forming yarn diameter) ratio is 1/1 to 5/1 and (distance between centers of both bases of the loop-like pile) / (pile-forming yarn) The ratio of the diameter) is 3/1 or less, and is supported on the base by a large number of filaments at both bases of the loop pile, and is self-supporting with respect to the surface of the base,
Or
The ratio of [(pile forming yarn length) − (distance between the centers of both bases of the looped pile)] / (pile forming yarn diameter) is 1/1 to 10/1 and (the looped yarn The ratio of the distance between the centers of both bases of the pile) / (diameter of the pile forming yarn) is 3/1 or less, and is supported on the base by a large number of filaments at both bases of the loop pile. Can be self-supporting.

  (6) The base is generally a base fabric such as a woven fabric or a non-woven fabric, but is not necessarily limited thereto.

A Antibacterial water absorbent pile mat B Antibacterial water absorbent pile mat C Threaded core F Filament M Mole yarn P Pile Pa Tip R Pile S Base fabric T Pile forming yarn

Claims (12)

A pile holder comprising a substrate having water absorption and a large number of piles, wherein the plurality of piles are disposed on the substrate in a state where the base of each pile is bonded to the substrate,
The pile forming yarns forming the respective piles have a substantially cylindrical shape, are densely arranged so as to be radially in the radial direction around the axis of the pile forming yarns, and are densely arranged in the axial direction. A filamentous core portion comprising a filament of hydrophobic fibers of 03 to 1.5 denier and a plurality of monofilament yarns of hydrophobic fibers along the axis of the pile forming yarn;
The multiple filaments are held by the filamentous core , do not contain an antibacterial agent,
At least one of the monofilament yarns constituting the filamentous core portion contains an antibacterial agent,
A substantially cylindrical outer peripheral surface of the pile forming yarn is formed by a tip portion of the filament,
The filament becomes a higher density state toward the radially inward,
An antibacterial agent containing at least one of the monofilament yarns constituting the filamentous core in moisture that is absorbed radially inward of the pile forming yarn and guided to the substrate having water absorption along the filamentous core An antibacterial water-absorbing pile holder characterized by having an antibacterial effect . The thread-like core portion, the antibacterial water absorbing pile holder of claim 1 wherein is made of monofilament yarns of 1 denier to 1000 denier hydrophobic fibers of 2 to 300 present along the pile forming yarn axis. The thread-like core portion, the antibacterial water absorbing pile holder of claim 1 wherein is made of monofilament yarns of hydrophobic fibers of 10 denier to 300 denier 2 to 24 along the axis of the pile forming yarn.   The antibacterial water-absorbing pile holder according to any one of claims 1 to 3, wherein the pile formed by the pile-forming yarn has a substantially cylindrical shape with a free end at a tip. The tip of the substantially cylindrical pile is formed by a large number of filaments of 0.03 to 1.5 denier hydrophobic fibers that are held by the thread-like core and are closely arranged to form a radial shape. It has a curved shape,
5. The antibacterial water-absorbing pile holder according to claim 4, wherein the substantially convex curved surface is formed by the tips of the filaments.   The antibacterial water-absorbing pile holder according to claim 5, wherein the pile has a height / base diameter ratio of 1/2 to 3/1 and is self-supporting with respect to the surface of the substrate.   The antibacterial water-absorbing pile holder according to any one of claims 1 to 3, wherein the pile is a loop-shaped pile formed such that the pile-forming yarns form a ring shape.   The loop pile has a ratio of (loop pile height) / (pile forming yarn diameter) of 1/1 to 5/1 and the distance between the centers of both bases of the loop pile. ) / (Pile-forming yarn diameter) ratio is 3/1 or less, and is supported on the base by a large number of filaments at both bases of the looped pile, and is self-supporting on the surface of the base. The antibacterial water-absorbing pile holder according to claim 7.   The looped pile has a ratio of [(pile forming yarn length) − (distance between centers of both bases of the looped pile)] / (pile forming yarn diameter) of 1/1 to 10/1. And the ratio of (distance between the centers of both bases of the loop pile) / (diameter of the pile forming yarn) is 3/1 or less, and a large number of filaments at both bases of the loop pile on the substrate. The antibacterial water-absorbing pile holder according to claim 7, wherein the antibacterial water-absorbing pile holder is supported by the substrate and has a self-supporting property with respect to the surface of the substrate.   The antibacterial water-absorbing pile holder according to any one of claims 1 to 9, wherein a filamentous core portion made of a monofilament yarn of a hydrophobic fiber in the pile forming yarn is hydrophilized. 11. The antibacterial agent is attached to a large number of 0.03 to 1.5 denier hydrophobic fiber filaments and / or monofilament yarns constituting a thread-like core constituting the pile forming yarn in the pile. The antibacterial water-absorbing pile holder according to any one of the above.   Among the many filaments of 0.03 to 1.5 denier hydrophobic fibers constituting the pile forming yarn in the pile, 1.5 to 5 denier radially forming the radial direction about the axis of the pile forming yarn. The antibacterial water-absorbing pile holder according to any one of claims 1 to 10, wherein a hydrophobic fiber filament containing an antibacterial agent is dispersed in the circumferential direction and the axial direction of the pile.

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