JP2015012959A - Mop - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mop suitable for wiping with water and also having low frictional resistance against a floor.SOLUTION: A mop comprises a combination of a handle having a head part, and a cleaning cloth attached to the head part. The cleaning cloth is a stitched article made by superimposing fluffy knit fabric and knitted or woven fabric and sewing up them together. The fluffy knit fabric is composed of fluffy parts and a knit fabric body. The fluffy parts are composed of multifilament yarns comprising hydrophobic synthetic fiber having a single fiber fineness of 1.1 to 5.5 decitex. The length of the fluffy parts is 0.8 to 5 mm, and the fluff density is 5,000 pieces/cmor more. The knitted or woven fabric is composed of multifilament yarns comprising hydrophobic synthetic fiber having a single fiber fineness of 0.011 to 0.22 decitex. The basis weight of the nonwoven fabric is 250 to 500 g/m. The knit body of the fluffy knit fabric and the knitted or woven fabric are superimposed and sewn up them together. The knitted or woven fabric of the stitched article is fitted to the head part so as to be in contact with the head part, to perform wiping-off work as a mop.

Description

  The present invention relates to a mop comprising a combination of a mop cleaning cloth and a handle having a head portion.

  A mop is a cleaning tool for attaching a mop cleaning cloth to the head portion of a handle, holding the handle by hand, and wiping the floor or the like with the cleaning cloth. Conventionally, various woven fabrics, knitted fabrics, nonwoven fabrics, and the like are used as the mop cleaning fabric. For example, Patent Document 1 describes a mop cleaning cloth made of a pile knitted fabric having a single fiber fineness of a pile yarn of 0.1 to 0.6 dtex.

  The cleaning cloth for mops described in Patent Document 1 is excellent in wiping off water-based and oil-based dirt, but is not suitable for wiping with water. That is, there was no water retention capability, and when wiping with water, water was immediately discharged to dry, and a wide range of floors could not be wiped with water. In addition, since the single fiber fineness of the pile yarn is thin, the frictional resistance with the floor becomes high, and the wiping work with a mop sometimes becomes heavy.

JP 2009-112781 A

  An object of the present invention is to provide a mop suitable for wiping with water and having low frictional resistance with a floor.

This invention solves the said subject by employ | adopting the knitted fabric which has the water retention ability as a cleaning cloth for mops, and the suture product of a napped fabric with good wiping property. That is, according to the present invention, in a mop that is a combination of a handle having a head portion and a cleaning cloth attached to the head portion, the cleaning cloth includes a napped knitted fabric and a knitted fabric abutted against the head portion. It is a stitched product that is overlapped and stitched, and the napped knitted fabric is composed of a napped portion that becomes a cleaning surface and a knitted fabric body that is superposed on the knitted fabric, and the napped portion has a single fiber fineness of 1.1 to 1.1. It is composed of multifilament yarns made of 5.5 decitex hydrophobic synthetic fibers, the length of the napped is 0.8-5 mm, and the napped density is 5,000 / cm @ 2 or more. The present invention relates to a mop characterized by including a hydrophobic synthetic fiber having a fineness of 0.011 to 0.22 dtex and a basis weight of 250 to 500 g / m ² .

The mop cleaning cloth is composed of a laminated suture product of a napped knitted fabric for cleaning and a knitted fabric abutted against a head portion provided at the tip of the mop handle. The napped fabric is formed by providing a napped portion on one side of the knitted fabric body. This napped portion becomes a cleaning surface (wiping surface). Therefore, the knitted fabric body is overlapped with the knitted fabric and is not exposed to the outside. The napped portion is composed of a multifilament yarn made of a hydrophobic synthetic fiber having a single fiber fineness of 1.1 to 5.5 dtex. As the hydrophobic synthetic fiber, a polyester fiber is generally used. If a hydrophilic fiber is used instead of the hydrophobic synthetic fiber, it tends to absorb water and is inferior in water wiping, which is not preferable. The reason for using multifilament yarn instead of spun yarn is to prevent the occurrence of fluff. The reason why multifilament yarn is used instead of monofilament yarn is that monofilament yarn has a single fiber fineness of 5.5 dtex or less and is difficult to manufacture. When the napped portion is formed with a single fiber fineness of less than 1.1 decitex, the water held in the knitted fabric is easily transferred to the napped portion, the water is released faster, and the cleaning cloth containing water is replaced. Otherwise, it will be difficult to wipe the floor over a wide area. If the napped portion is formed with a single fiber fineness exceeding 5.5 decitex, the single fiber is too thick and the wiping property of dust or the like is lowered, which is not preferable. The cross-sectional shape of the single fiber may be arbitrary, but an irregular shape such as a triangle is more preferable than a circular shape because it is excellent in wiping off dust and the like. The length of napping is 0.8 to 5 mm, preferably 0.8 to 2.5 mm. If the length of the raised hair is less than 0.8 mm, the wiping property of dust or the like is lowered, which is not preferable. If the length of the napping exceeds 5 mm, the frictional resistance at the time of wiping increases, and the mop becomes heavy at the time of wiping work, which is not preferable. In particular, it is preferable that the length of the raised hair is 2.5 mm or less because the mop becomes light even during the wiping operation. The napping density is 5000 or more / cm ² or more, and preferably 5000 to 20000 / cm ² . When the nap density is less than 5000 / cm ² , the wiping property of dust and the like is lowered, which is not preferable. In particular, a nap density of 5000 to 20000 / cm ² is preferable because the wiping property is excellent and the mop can be handled lightly during the wiping operation.

  The base of napping is knitted in the knitted fabric body. The knitted fabric body is formed by a conventionally known weft knitting or warp knitting, but it is preferable to use a warp knitting. This is because weft knitting tends to extend in the width direction and is inferior in dimensional stability, but warp knitting is free from this and has excellent dimensional stability. The knitted fabric body is generally knitted using conventionally known multifilament yarns. The multifilament yarn used for knitting the knitted fabric main body may be the same as or different from the multifilament yarn forming the raised portion. In general, the single fiber fineness is about the same, but the thickness of the multifilament yarn is preferably thin. This is to make the structure of the knitted fabric body dense. Also, the cross section of the single fiber is preferably circular rather than irregular. This is because the knitted fabric body does not become a cleaning surface for wiping off dust.

  For knitting napped knitted fabrics, supply multifilament yarns made of hydrophobic synthetic fibers with a single fiber fineness of 1.1 to 5.5 dtex constituting the napped portion and multifilament yarns constituting the knitted fabric body to the knitting machine Is done by doing. The former multifilament yarn is knitted to form a pile, and this pile becomes a raised portion. The pile may be a loop pile formed during knitting, or may be a cut pile obtained by cutting the tip of the loop pile. A cut pile is preferable because water drains better.

  The knitted fabric used in the present invention has a water retention ability, and includes a hydrophobic synthetic fiber having a single fiber fineness of 0.011 to 0.22 dtex. As the hydrophobic synthetic fiber, a polyester long fiber is generally used. The reason why the hydrophobic synthetic fiber is used is that the retained water is easily released gradually. That is, when hydrophilic fibers are used, the fibers themselves absorb the retained water and it is difficult to release the water. When the single fiber fineness exceeds 0.22 dtex, it is difficult to retain water due to a capillary phenomenon between single fibers, which is not preferable. Also, fibers with a single fiber fineness of less than 0.011 dtex are not common because they are difficult to manufacture. It is preferable to obtain a hydrophobic synthetic fiber having a single fiber fineness of 0.011 to 0.22 denier using a split fiber. For example, after knitting and weaving using multifilament yarns consisting of several to several tens of minutes of long fibers, the resulting knitted fabric is subjected to stencil processing or the like at the time of dyeing to divide the long fibers, so that the single fiber fineness is A hydrophobic synthetic continuous fiber having a denier of 0.011 to 0.22 can be obtained. As the knitted or woven structure of the knitted fabric, a conventionally known one may be adopted, but it is preferable to adopt a double-sided pile knitted structure or a double-sided pile woven structure in order to enhance the water retention capacity. At this time, split-type fibers may be used as the pile yarns, and the yarns constituting the ground structure entwining the roots of the pile yarns may be knitted and woven with multifilament yarns composed of thick single fibers exceeding 0.22 denier.

The basis weight of the knitted fabric is 250 to 500 g / m ² . If the basis weight of the knitted fabric is less than 250 g / m ² , the amount of single fibers is small, the amount of water retained between the single fibers is small, and it becomes difficult to wipe a wide range of floors without changing the cleaning cloth. It is not preferable. If the basis weight of the knitted fabric exceeds 500 g / m ² , the knitted fabric becomes heavy, and the wiping operation with a mop becomes heavy, which is not preferable.

  The above-mentioned napped knitted fabric and the knitted fabric are laminated so that the knitted fabric main body of the napped fabric is in contact with the knitted fabric, and appropriate portions such as the periphery and a part of the central portion are stitched to obtain a stitched product. The reason for sewing without adhering with an adhesive or the like is to facilitate supply of water held by the knitted fabric to the napped knitted fabric. And the cleaning cloth which consists of this sewing product is mounted | worn with the head part of the handle of a mop, and is used as a mop. The cleaning cloth in which the male or female material of the hook-and-loop fastener is bonded to the knitted fabric surface of the suture product is preferable because it can be easily attached to the head portion using this male or female material. That is, if the female or male material of the hook-and-loop fastener is bonded to the head part and the male or female material is bonded to the knitted fabric surface of the suture product, the head part is cleaned by engaging the both. It becomes easy to put on cloth.

  In the mop according to the present invention, the knitted fabric of the cleaning cloth holds water, and then the cleaning cloth is attached to the head portion. Then, hold the handle by hand, press the cleaning cloth against the floor, and wipe it with water. By pressing the cleaning cloth against the floor, the water held in the knitted fabric of the cleaning cloth moves to the napped knitted fabric side and can be wiped with water. In addition, this cleaning cloth can be suitably used as a rag for wiping with a finger and wiping without attaching to the head part of the mop handle.

The cleaning cloth used in the present invention is obtained by stitching a napped knitted fabric and a knitted fabric, and the knitted fabric contains a hydrophobic synthetic fiber having a single fiber fineness of 0.011 to 0.22 dtex, and its basis weight is 250 g / Since it is m ² or more, a relatively large amount of water can be retained. And this water gradually transfers to a napped knitted fabric by pressing the cleaning cloth against the floor through the handle of the mop. The napped portion, which is the cleaning surface of the napped knitted fabric, is composed of multifilament yarns made of hydrophobic synthetic fibers having a single fiber fineness of 1.1 to 5.5 dtex. The water can be wiped well.

Further, the napped portion is composed of a multifilament yarn made of a hydrophobic synthetic fiber having a single fiber fineness of 1.1 to 5.5 dtex, the napped length is 0.8 to 5 mm, and the napped density is 5000 / cm. Since it is ² or more, there is little frictional resistance with the floor, and the wiping work with a mop is light. In addition, since the basis weight of the knitted fabric is 500 g / m ² or less, the wiping operation by the mop does not become heavy due to the weight of the cleaning cloth.

Example 1
The following multifilament yarns were used.
(1) Multifilament yarn A: Multifilament yarn of 84 dtex / 36 filaments made of polyester fiber having a triangular cross-sectional shape and a single fiber fineness of 2.3 dtex (2) Multifilament yarn B: The cross-sectional shape is circular 55 decitex / 24-filament multifilament yarn made of polyester fiber having a single fiber fineness of 2.3 dtex (3) Multifilament yarn C: from split type composite fiber having a circular cross-sectional shape and a single fiber fineness of 2.3 dtex A multifilament yarn of 165 dtex / 72 filaments. The split type composite fiber is composed of a polyester component and a nylon component. When the split type composite fiber is split, a polyester fiber having a wedge-shaped cross section and a single fiber fineness of 0.14 dtex appears.
(4) Multifilament yarn D: 165 dtex / 48 filament multifilament yarn made of polyester fiber having a circular cross section and a single fiber fineness of 3.4 dtex

A single-sided pile knitted fabric was obtained using a tricot knitting machine using the multifilament yarn A as the pile yarn and the multifilament yarn B as the yarn constituting the ground structure. Thereafter, the tip of the pile was cut to obtain a single-sided cut pile knitted fabric. This single-sided cut pile knitted fabric was cut into a size of width 130 mm × length 250 mm to obtain a napped knitted fabric. The length of the napped was 2.0 mm and the napped density was 14040 / cm ² . The basis weight was 270 g / m ² .

On the other hand, a double-sided pile knitted fabric (manufactured by AQA Korea, product number “DMS61357”) was prepared. In this double-sided pile knitted fabric, the pile yarn was constituted by the multifilament yarn C, and the yarn of the ground texture was constituted by the multifilament yarn D. As a result of scouring and dyeing the double-sided pile knitted fabric, the split type composite fibers constituting the pile yarn are divided by the kneading process at the time of dyeing, the cross-sectional shape is wedge-shaped, and the single fiber fineness is 0.14 dtex. Polyester monofilament appeared. The dyed double-sided pile knitted fabric was cut into a size of 130 mm wide × 250 mm long to obtain a knitted fabric. The basis weight of this knitted fabric was 380 g / m ² .

  Superimpose the dyed double-pile pile knitted fabric on the surface of the knitted fabric body (the surface opposite to the cut pile surface) and sew the periphery with a sewing thread. It was. After the cleaning cloth made of this suture was soaked with water, it was attached to the head part of the mop handle and wiped the floor. As a result, the water wiping operation was light and the water could be wiped well.

Example 2
A single-sided loop pile knitted fabric was obtained with a tricot knitting machine using a multifilament yarn of 48 dtex / 12 filament made of nylon fiber having a single fiber fineness of 4 dtex. This single-sided loop pile knitted fabric was cut into a size of 130 mm wide × 250 mm long to obtain a female material for a hook-and-loop fastener.
The napped fabric, the knitted fabric, and the female material of the hook-and-loop fastener obtained in Example 1 are overlapped, and the periphery thereof is sewn with a sewing thread, and is sewn with two sewing threads in the vertical direction. A cleaning cloth in which a female material was bonded was obtained.
After soaking this cleaning cloth in water, engage the male material of the hook-and-loop fastener provided on the head part of the mop handle and the female material of the cleaning cloth, attach the cleaning cloth to the head part, and As a result of wiping with water, the wiping work was light and the water could be wiped well.

Comparative Example 1
Instead of the multifilament yarn C, the same method as in Example 1 was used, except that a 78 dtex / 36 filament multifilament yarn made of polyester fiber having a circular cross-sectional shape and a single fiber fineness of 2.2 dtex was used. A cleaning cloth was obtained. When this cleaning cloth was used to perform a wiping operation in the same manner as in Example 1, water was released while wiping a wide range of floors, making it impossible to wipe the water.

Claims (8)

In a mop that is a combination of a handle with a head part and a cleaning cloth attached to the head part,
The cleaning cloth is a stitched product in which a napped fabric and a knitted fabric in contact with the head portion are overlapped and stitched together,
The napped knitted fabric is composed of a napped portion serving as a cleaning surface and a knitted fabric main body overlapped with the knitted fabric, and the napped portion is a multifilament composed of a hydrophobic synthetic fiber having a single fiber fineness of 1.1 to 5.5 dtex. The length of the napping is 0.8 to 5 mm and the napping density is 5000 / cm ² or more.
The knitted fabric is a single fiber fineness contains hydrophobic synthetic fibers 0.011 to 0.22 dtex, mop, characterized in that its basis weight is 250~500g / m ^2.   2. The mop according to claim 1, wherein the napping is a cut pile.   The mop according to claim 1, wherein the length of the napped is 0.8 to 2.5 mm. The nap according to claim 1, wherein the napped density is 5000 to 20000 pieces / cm ² .   The mop according to claim 1, wherein the hydrophobic synthetic fiber contained in the knitted fabric is obtained by dividing and splitting a split type fiber.   2. A combination of a pattern formed by bonding a female or male material of a hook-and-loop fastener on the head portion and a cleaning cloth formed by bonding a male or female material of the hook-and-loop fastener on the knitted fabric surface of the cleaning cloth. Mop. A napped knitted fabric comprising a napped portion and a knitted fabric body, wherein the napped portion is composed of a multifilament yarn made of a hydrophobic synthetic fiber having a single fiber fineness of 1.1 to 5.5 dtex, Napped knitted fabric having a length of 0.8 to 5 mm and a napped density of 5000 / cm ² or more;
A knitted fabric having a single fiber fineness of 0.011 to 0.22 dtex hydrophobic synthetic fiber and having a basis weight of 250 to 500 g / m ² ,
A mop cleaning cloth comprising a stitched product in which the knitted fabric body and the knitted fabric are overlapped and stitched together.   The mop cleaning cloth according to claim 7, wherein a male or female material of a hook-and-loop fastener is bonded to a knitted fabric surface of a suture product.