TWI296514B - - Google Patents

Description

1296514 (1) Inventive description Qin [Technical field to which the invention pertains] The present invention relates to the use of water in a flush toilet or the like, in order to remove dirt, and can be discarded in water after use. Qing • Sweeping supplies. [Prior Art] # In the following Patent Document 1, an invention relating to the use of a disposable toilet brush after the flushing of the flushing bucket is disclosed. The toilet head is a paper formed by using a short fiber of wood pulp and an adhesive such as CMC, and a plurality of slits are formed in the paper, and the paper is wound into a brush head shape. The toilet cleaning brush head is fixed to the front end portion of the hand-held portion of the paper. After wiping the toilet using the above-described toilet cleaning brush head, the toilet cleaning brush head and the hand-held portion are discarded in the flush toilet to be decomposed in the water. Further, it is described that in order to adjust the time during which the paper is dissolved, • wax treatment is applied to the surface of the brush head. [Patent Document 1] Japanese Laid-Open Patent Publication No. SHO-62-108 No. 683 No. PCT Publication No. Sho. In the short time of about 20 seconds, the paper that constitutes the toilet cleaning brush must be cleaned before it dissolves in water. However, the toilet cleaning brush head formed by the paper-fixed paper -4-(2) 1296514 with water-soluble CMC, in the cleaning of the toilet, is extremely swollen as soon as it touches the water, and the strength is extremely lowered. It is difficult to wipe off the dirt attached to the toilet. Further, when the wax is applied to the brush head, since the wax component suppresses the decomposition of the paper, it takes a long time for the brush head to be in the purification tank until the decomposition takes place. Further, since the toilet cleaning head formed by winding the cut paper is low in rigidity, it is difficult to wipe the toilet with the brush head or the like, and it is not possible to effectively remove dirt adhering to the toilet or the like. The present invention has been made to solve the above problems, and an object of the invention is to provide a hydrolyzable cleaning article which can effectively wipe the dirt attached to a toilet of a flush toilet or the like. Further, an object of the present invention is to provide a hydrolyzable cleaning article which is high in strength when wiping a toilet or the like, can effectively exhibit the effect of removing dirt, and can be dispersed in water in a short period of time after use. [Means for Solving the Problems] The present invention relates to a hydrolyzable cleaning article which can be dispersed in water, and is characterized in that it has a fiber compression body in which fibers which are dispersible by water are compressed. Since the fiber-compressed body of the water-disinfecting cleaning material of the present invention has high rigidity, it is possible to effectively remove the dirt of the cleaning portion by wiping the fiber-compressed body to the cleaning portion of the toilet or the like. Further, since the fiber compact is a collection of fibers dispersible by water, the fibers are dispersed and dispersed in the water when a large amount of water is taken. -5 - (3) (3) 1296514 Further, the fibers constituting the fiber-compressed body are joined by at least one of hydrogen bonding, followed by water-soluble adhesive, and fiber interlacing, and the present invention is A gripper that holds the above-mentioned fiber compression body in a detachable manner is provided. After the cleaning portion of the cleaning article is held by the grip bar, the cleaning device is wiped and cleaned, and the cleaning article is removed from the grip bar and discarded in the flush toilet, so that the hand does not need to touch the cleaning product after use. , you can simply discard. Since it is only a cleaning article that is discarded in the water, the cleaning article can be decomposed in a short time in the water. In the present invention, for example, a fiber compression body is partially a compression portion and the other portion is an uncompressed portion, and the compression portion is used by being held by the grip. According to this configuration, since the cleaning portion such as the toilet can be cleaned by the non-compressing portion, the touch feeling in the portion to be cleaned is soft, and the non-compressed portion can effectively clean the wide range. Further, since the side of the holding portion is a compression portion, the rigidity of the whole body is high, and it does not become soft and collapse during cleaning, and the touch feeling during cleaning becomes good. In the present invention, in order to form a rope body in which a hydrolyzable sheet is formed, a plurality of rope bodies are compressed to form the fiber compression body. For example, a plurality of the above-mentioned rope bodies are wound up and compressed, and the above-mentioned fiber compression body is formed. When a fiber compression body obtained by compressing a plurality of rope bodies is used, when the water is wetted during the cleaning, the respective rope bodies are separated, and each rope body contributes to the force of removing the dirt, so that it can be effectively cleaned. A wider range. -6 - (4) 1296514 Alternatively, in the above-mentioned fiber compression body, the fiber is laminated and compressed into a sheet shape or a block shape. In this case, it is preferable that the rope body made of the hydrolyzable sheet is used in combination with the above-mentioned sheet-like or block-shaped fiber compression body. • In this configuration, a sheet-like or block-shaped fibrous compression body can be used to remove the stains that remain stubbornly attached to the toilet, and the cords are softly deformed to exhibit the effect of removing dirt in a wide range. • For example, the hydrolyzable sheet forming the rope body is a fiber interwoven nonwoven fabric obtained by interlacing fibers having a fiber length of 20 mm or less. When the cord is formed by the fiber interlaced nonwoven fabric, the surface strength of the cord body can be increased, and it becomes less likely to be damaged during cleaning. Preferably, the rope body is composed of a fiber interwoven nonwoven fabric obtained by interlacing fibers having a fiber length of 20 mm or less, and a hydrolyzed paper formed of cellulose fibers. When the fiber interlaced nonwoven fabric and the hydrolyzed paper are twisted together to form a rope body, • the hydrogen bond strength of the fibers of the hydrolyzed paper is easily maintained in the shape after drying. Further, when water is encountered and the paper is slackened, the strength can be maintained by interlacing the fibers of the non-woven fabric. Further, in the present invention, it may be a sheet-like or block-shaped fibrous compression body which is surrounded by a hydrolyzable outer sheet. In this configuration, the surface to be cleaned by the hydrolyzable outer sheet is wiped and removed, and the fibrous compressed body as the core material is provided. Therefore, it is possible to prevent the cleaning article from being softened or collapsed when wetted by water. In this case, the outer sheet is a fiber interwoven nonwoven fabric obtained by interlacing fibers having a fiber length of 20 mm or less and 7-(5) 1296514. For example, the fiber interlaced non-woven fabric has a paper length of 20 mm or less. Manufacture of other fibers [Effects of the Invention] The hydrolyzable cleaning article of the present invention does not break and deform when the toilet is wiped by using a shrinkage. Moreover, if it is discarded in water after use, the fibers will be scattered and it is easy to hydrolyze in a short time. [Embodiment] Fig. 1 is a perspective view showing a state of a hydrolyzable cleaning rod of the present invention, and a process of the first embodiment of the cleaning article held on the grip bar shown in Fig. 2 to Fig. 4; FIG. 5 is a perspective view showing another embodiment of the cleaning article of the present invention. (B) (C) showing the structure of the rope according to the structure. FIG. 4 is the first embodiment of the invention. Supplies 1. The cleaning article 1 is provided with a holding side end end portion 3. The grip 1 120 shown in Fig. 1 has a support portion 1 22 integrally formed at the front end portion of the synthetic tree, and a pressing portion 123 made of synthetic resin facing the 126. Support, think. Pulp fiber and its fiber are. The high-strength fiber pressure can effectively remove the dirt. The compressed material is kept in the grip from the compressed state, and the hydrolyzable state of the first state is displayed in order to display the water 1, Fig. 15 (the reins of A) In the explanation, the hydrolyzable cleaning portion 2 and the cleaning-side grease shank portion 1 2 1 are provided with the support -8-(6) 1296514 surface of the support portion if portion 122 as a flat surface, and the nip portion 123 is supported. The inner surface of the portion 122 facing the flat surface is a flat surface, and the pressing portion 1 2 3 is parallel to the supporting portion 1 22 . The pressing portion 123 is integrally formed with a control rod 124 formed on the handle portion 121 . The carrier shaft 125 is rotatably supported at the bracket 121a. The operating wire 126 is rotatably connected to the upper portion of the control lever 1 24. The shaft 125 is provided with a torsion spring ( The illustration is omitted, and by the torsion spring, the lever 1 24 is pushed in the counterclockwise direction with the shaft 1 25 as a fulcrum, and the pressing portion 1 23 is pushed toward the support portion 1 22 in the direction of the support portion 1 22 . The upper part of 2 1 is provided with a control part, and an operation lever is arranged in the control part. The above operation wire 1 26 is a thick metal wire, and the above operation lever is connected to the upper end. If the operation lever is pulled upward, the lever 1 24 will be reversed and the pressing portion 1 23 will be separated from the support portion 1 22 . When the holding side end portion 2 of the cleaning article 1 is placed between the support portion 1 22 and the pressing portion 1 23, and the operation lever is released, the cleaning article 1 is swept by the force of the torsion spring. The holding side end portion 2 is sandwiched between the support portion 1 22 and the pressing portion 1 2 3. By the cleaning article 1 being held by the grip 1 120, the cleaning side of the cleaning article 1 is used. The end portion 3 wipes the portion to be cleaned such as a toilet, and the dirt adhering to the surface of the toilet or the like can be removed. In this case, the cleaning unit 1 can be wetted by the water accumulated in the toilet to wipe the cleaning unit 1 after the cleaning operation is completed. Lifting the above operation lever releases the pressing force generated by the pressing portion 1 23, and the cleaning article 1 can be discarded in the toilet without touching the cleaning article 1. -9 - (7) 1296514 4 The cleaning article 1 shown in the figure is a plurality of rope bodies 4 formed by fibers which are dispersed in water by an integrated bundle. The reduced fiber compact 11 is formed. The method of manufacturing the cleaning article 1 will be described with reference to Fig. 2 to Fig. 4. As shown in Fig. 2(A), one rope body 4 or a plurality of rope bodies 4 are provided. The rolled cylindrical body 1 is 〇. At this time, as shown in Fig. 2(B), after the virtual circle HC perpendicularly intersecting the center line 〇 and the radius R is set, the radial direction is oriented along the radial direction with respect to the radius R. The counterclockwise direction is only inclined by the winding direction α of 0 1 and is wound around the winding body a plurality of turns. Thereafter, it is cooled along the radial direction in a direction clockwise with respect to the radius R, and is only inclined by 0 2 in the winding direction. Winding multiple turns. The cylindrical body 1 第 shown in Fig. 2 (Α) can be obtained by repeating the winding of the plurality of turns in the α direction and the winding of the plurality of turns in the /3 direction. The rope bodies constituting the cylindrical body 1 are wound in a state of being intersected with each other. The tubular body 1 shown in Fig. 2(A) is compressed by a pressing force in the direction of the diameter by a pressing machine to obtain a fiber-compressed body 1 i. The pressure at this time is about 2000 to 6000 kPa, for example, 3920 kPa (40 kgf/cm2). The compression time is about 1 to 5 seconds. The pressurization at this time is carried out at normal temperature. Or it can be heated and pressurized. The compressed fiber compact 11 maintains a compressed state by the mechanical collective force and hydrogen bonding force of the fibers constituting the string 4. In order to bond the fibers by the hydrogen bonding force, it is preferable to use the natural fibers or regenerated cellulose fibers having the hydroxyl group on the surface of the fibers as the fibers constituting the rope 4. Further, in order to increase the hydrogen bonding force, the tubular body 10 may be supplied with water by a spray or the like, and then heated and compressed. Further, -10-(8) 1296514 may also use a water-soluble adhesive such as polyvinyl alcohol (PVA) or polyacrylic acid (paa) or carboxymethyl cellulose (CMC) to cause the rope bodies 4 to follow each other to improve the drying strength. . In the fiber compression body n shown in Fig. 3, since the cylindrical body 1 is crushed and compressed in the radial direction, the ring portion 4a in which the rope body 4 is crushed is exposed at both end portions. The fiber compact π shown in Fig. 3 can be directly used as a hydrolyzable cleaning article. However, in this embodiment, the fiber compact 11 is cut at a position of 1 / 2 at the center line of the winding. The size of the 'made two cleaning supplies 第 shown in Figure 4. In the cleaning article 1 shown in Fig. 4, a plurality of cut end faces 4b of the plurality of rope bodies 4 are present at the holding side end portion 2, and a plurality of the above-mentioned flat state at the cleaning side end portion 3 are present. Ring portion 4a. In the above-mentioned rope body 4, the hydrolyzable sheet is formed in a high-density manner as shown in Fig. 15(A). The hydrolyzable sheet is composed of fibers having a fiber length of 20 mm or less. When a large amount of water is taken in a flush toilet or a purification tank, the fibers can be separated from each other in a short time. The hydrolyzable sheet is a hydrolyzed paper in which only the pulp fibers are paper-bonded and the fibers are joined by hydrogen bonding force, or the pulp fibers and the ray fibers are paper-bonded together, and the fibers are joined by hydrogen bonding force. Alternatively, a water-soluble adhesive such as polyvinyl alcohol (PVA) or polyacrylic acid (PAA) or carboxymethyl cellulose (CMC) may be used, followed by hydrolysis of the fibers to each other. The state of the rope body 4 can be maintained by the hydrogen bonding force in the state of the hydrolyzed paper, or the water-soluble adhesive can be imparted after the paper is hydrolyzed, and the rope body 4 can be maintained. form. -11 - (9) 1296514 Further, a hydrolyzable sheet in which the pulp fibers are subjected to water-resistant treatment to slightly lower the hydrophilicity and the pulp fibers are joined by a water-soluble adhesive may be used. The rope body 4 formed of the water-decomposable sheet is easy to maintain the shape of the rope even if it is wetted by water during cleaning. Fig. 15(a)(B)(C) shows a more preferable example of the reins 4A, 4B, and 4C for forming the above-mentioned rope body 4 according to the structure. The cord body 4 used in the cleaning article 1 is composed of any one of the reins 4A, 4B, and 4C. Alternatively, as the cord body 4 of the cleaning article 1, two or more types of reins 4A, 4B, and 4C may be used in combination. The reins 4A shown in Fig. 15(A) are processed in a direction in which a strip-shaped hydrolyzable sheet 8 having a specific width (for example, a width of 20 to 100 mm) is processed in one direction. Adult. In order to maintain the strength when the reins 4A is wet, the hydrolyzable sheet 8 is a hydrolyzable fiber interlaced nonwoven fabric. The hydrolyzable fiber interlaced non-woven fabric can be formed by laminating fibers having a fiber length of 20 mm or less on a conveyor belt of a mesh or the like, and interlacing the fibers by a jet stream treatment. The above-mentioned fiber interlaced nonwoven fabric is, for example, composed of fibers having a fiber length of less than 20 m and being interlacable by a jet of water, and pulp fibers. When pulp fibers and other fiber nonwoven fabrics having a fiber length of 2 Omm or less are formed, the other fibers are interlaced by the jet stream, and hydrogen is generated between the pulp fibers and between the pulp fibers and the other fibers. Key combination. The fiber is interwoven with a non-woven fabric, and the hydrogen bonding force of the pulp fibers maintains the high strength at the time of drying and maintains the shape of the crucible. Further -12-(10) 1296514 When wet, the higher surface strength can be maintained by the interlacing force of the other fibers described above. Since the rope body is loosened by the separation of the pulp fibers when it is discarded in the water, the interlacing of the other fibers is liable to become loose, so that the fibers can be separated from each other in a short time. dispersion. As other fibers which have a fiber length of 20 mm or less and can be interlaced by a jet stream treatment, it is preferable to use a biodegradable fiber, and to use a viscose crucible, a solvent spinning crucible, a fibril, and a copper. Regenerated cellulose fibers such as ammonia amide and strontium alginate are preferred. As the other fibers having a fiber length of 20 mm or less and interlaced by a jet stream treatment, synthetic resin fibers such as polyethylene terephthalate (PET) fibers, nylon fibers, and polypropylene (PP) fibers may be used. Further, as the resin fiber to be added to or substituted for the pulp fiber, natural fibers such as hemp and cotton, or bagasse, banana, pineapple, bamboo, and other natural fibers may be contained. Furthermore, polyvinyl alcohol (PVA) fiber which is a water-soluble resin, or water-soluble or water-swellable carboxymethyl cellulose (CMC) is added as an adhesive to improve the strength during drying, and The shape of the crucible can be easily maintained. Alternatively, it can be refined by using a crucible having a fiber length of about 3 to 7 mm, and the surface is peeled off to form a fibrillation crucible of a plurality of microfibers having a fiber length of 1 mm or less, and the fiber length can be 20 mm. The following fibers and the fibrillated ruthenium were subjected to wet papermaking, and then subjected to a fiber interlaced nonwoven fabric treated by a jet stream. In the non-woven fabric, fibers having a fiber length of 20 mm or less are interlaced, and the fibers are firmly fixed by the fibrillation hydrogen bond-13-(11) 1296514, so that the drying state can be improved. The strength in the wet state, particularly the strength during drying, is high, so it is easy to maintain the shape of the rope which is hardened by force. The fiber-interwoven non-woven fabric of the reins 4A is made of a natural fiber containing 10% by mass or more of pulp fibers, and further containing 10% by mass or more of a fiber such as yttrium fiber, which can be interlaced by a jet stream to have a length of 20 mm. The following other fibers are ideal. When the natural fiber is contained in an amount of 5% by mass or more, the hydrogen bonding force at the time of forming the reel can be enhanced, and the strength at the time of wetting can be improved by containing the interlaced fiber of 1% by mass or more. The water-decomposable sheet 8 formed of the fiber-entangled nonwoven fabric preferably has a basis weight of 30 g/m2 or more and 120 g/m2 or less, and preferably has a sheet thickness of not more than 0.1 mm and not more than 0.5 mm. In the fifth aspect (A), the one piece of the hydrolyzable sheet 8 which is a fiber interwoven nonwoven fabric is used to form the reel 4A, but the plurality of sheets of the hydrolyzable sheet 8 may be stacked to form a rein. Each of the rope bodies 4 used in the cleaning article 1 shown in Fig. 4 is made thick, and the base weight and thickness of one sheet of the water-decomposable sheet 8 may be increased in order to increase the strength during cleaning. When the basis weight and the thickness of the water-decomposable sheet 8 are excessively increased, the crucible process becomes difficult to form. Therefore, in this case, if a plurality of hydrolyzable sheets 8 are used to form the reins 4A, the reins can be made. It is thick and rigid, and when it is subjected to a large amount of water and the state of the shed is loose, it is easily separated into individual hydrolyzable sheets 8 and hydrolyzed. The reel 4B shown in Fig. 15(B) is a hydrolyzable sheet 8 which is woven with a fiber interlaced without 14-(12) 1296514, and is superposed on the hydrolyzed paper 9, and the hydrolyzable sheet 8 and The hydrolyzed paper 9 is formed together. The hydrolyzed paper 9 is obtained by paper-making a natural fiber such as pulp fibers, or by reproducing a natural fiber such as pulp fibers and a regenerated cellulose fiber such as snail fibers, and by utilizing the ammonia bond strength between the fibers. Intensity. When the hydrolyzable sheet 8 and the hydrolyzed paper 9 are superposed on each other and are stacked together, the hydrolyzable sheet 8 which is a fiber interwoven nonwoven fabric has a high strength, so that it can be forcefully and surely rubbed. After the crucible, the shape of the crucible during drying can be maintained by the hydrogen bonding force of the fibers constituting the hydrolyzed paper 9 and the mechanical bonding force between the fibers. Therefore, the high density reins 4 B are easy to process and can maintain the shape. When the cord body 4 of the cleaning article 1 shown in Fig. 4 is formed by using the high-density reel 4B, the cord body 4 having a high rigidity can scrape the dirt adhering to the surface of the toilet or the like even in a state containing a small amount of water. Sewage. Further, when a large amount of water is taken in the flush toilet or the like, the fibers constituting the hydrolyzed paper 9 become loose, and the crepe state is also loosened, whereby the hydrolyzable sheet 8 is loosened. When the hydrolyzable sheet 8 and the hydrolyzed paper 9 are combined, a large number of irregularities can be formed on the surface of the crepe 4B, and the effect of removing dirt can be improved. Further, the reins 4B are configured to use at least one of the hydrolyzable sheet 8 and the hydrolyzed paper 9 of a plurality of sheets. In the reins 4B shown in Fig. 15(B), the hydrolyzed paper 9 is colored in a color other than white such as blue or red. The hydrolyzable sheet 8 which is a fiber interwoven nonwoven fabric is formed of white fibers. By superimposing the hydrolyzable sheet 8 and the hydrolyzed paper 9, the colored portion and the white portion are alternately transposed, and the color • 15-(13) 1296514 is interlaced, and the appearance becomes better. When the reins 4B shown in Fig. 15(B) is processed, a non-woven fabric can be formed by using an air flow instead of the above-mentioned hydrolyzed paper 9. The air-laid non-woven fabric is formed by laminating pulp fibers by a gas flow molding method to form a fiber-woven net, and indirectly infiltrates the fibers using a water-soluble adhesive such as PVA. The air-laid non-woven fabric has a fiber density of a low density of about 〜4 to 0.700 g/cm3 and a high bulk of about 0.3 to 5 mm. It can be decomposed in water in a short time. Since the air-laid nonwoven fabric is cushioned, it is possible to obtain an elastic reel by processing the air-laid nonwoven fabric and the hydrolyzable sheet 8 which is a fiber-woven interwoven fabric. The reins 4C shown in Fig. 15(C) are a sheet of hydrolyzed paper 9 or a plurality of hydrolyzed papers 9, or the above-mentioned air-laid non-woven fabric, or the hydrolyzed paper 9 and the air-laid non-woven fabric are superposed to form a crucible. The core portion is wound around the core portion, and the hydrolyzable sheet 8 which is a fiber interwoven nonwoven fabric is wound around one another. The reins 4C' have a strong hydrogen bonding force and maintain a sturdy state, which is a high density. Since the hydrolyzable sheet 8 having a high wet strength is wound around the core, the surface strength of the cord body 4 can be improved, and the shape of the cord body 4 can be easily maintained when wiping in a wet state. Further, when a large amount of water is taken up, the hydrolyzed paper 9 constituting the core or the air-laid non-woven fabric is decomposed, whereby the hydrolyzable sheet 8 is loosened and becomes hydrolyzed in a short time. It is preferable that the number of twists of the above-mentioned reins 4A, 4B, and 4C is 4 to 30 times per length of the sheet forming the reins. If the number is less than the above, the density will become too low, and the frictional force when the wiping operation cannot be carried out will be easily broken. -16- (14) 1296514 Loss. If the number of times exceeds the above-mentioned number of times, the sheet load is too heavy during the operation, and there is a break. Further, the thickness of the reins 4A and 4B'4C is preferably 1 to 10 mm. When it is within this range, the touch feeling when rubbed with the cord body 4 is good, and when it is discarded in a flush toilet or the like, it does not block in the drain pipe and is easily discarded. The cleaning article 1 is held between the support portion 122 of the grip 120 shown in Fig. 1 and the pressing portion 123 when the holding side end portion 2 is used. The cleaning article 1 is formed of a fibrous compression body 1 1 and does not separate the rope body 4 when dried. After the cleaning article 1 is held by the grip 1 20, the cleaning article 1 is wetted by water, but at this time, the cleaning article 1 is sandwiched by the support portion 1 22 and the pressing portion 1 23, so that the cleaning is performed on the holding side end portion 2 The rope body 4 does not separate. In the cleaning article 1 shown in Fig. 4, the rope body 4 extends obliquely with respect to the cross section of the center line, and since the rope bodies 4 are compressed in a state of being crossed, the overall rigidity becomes high, and the rigidity can be increased. The cleaning side end portion 3 is wiped by force on the cleaning portion such as the toilet, and the cleaning portion can be removed by the cleaning side end portion 3. At the cleaning side end portion 3 of the cleaning article 1, there is a ring portion 4a of a plurality of rope bodies 4, and since the cutting end surface 4b of the rope body 4 does not appear at the cleaning side end portion 3, the cleaning side end portion 3 is provided. Even if it is wetted by water, the rope body 4 can be prevented from becoming too slack. When the cleaning portion of the toilet or the like is wiped, if a large amount of water is given, the compressed state is relaxed, and the ring portions 4a are rubbed back and forth independently of the cleaning portion, and the respective ring portions 4a can be cleaned. A wide range of parts are being cleaned. Since the cylindrical body 10 shown in Fig. 2 is formed by winding the long rope body 4 and -17-(15) 1296514, the process of forming the cylindrical body 1 , is not easy to occur after the rope body 4 is formed. Loose. Further, since the tubular body 10 is compressed and then formed into the fiber compression body 1 1, it is possible to prevent the rope 4 from becoming slack during the storage and storage of the cleaning article. Since the fiber compact 1 1 shown in Fig. 3 is cut in half to form each cleaning article 1, the string 4 is cut into a plurality of units in the cleaning article 1. The length of each unit of the cord body 4 is about twice the length from the holding side end portion 2 of the cleaning article 1 to the cleaning side end portion 3. Therefore, if it is discarded in the flush toilet after use, the compressed state will be relaxed by a large amount of water, and the units of the respective rope bodies 4 will be easily dispersed. The dispersed ropes 4 are hydrolyzed. The length from the holding side end portion 2 of the cleaning article 1 to the cleaning side end portion 3 is about 20 to 100 mm, but is not limited thereto. The hydrolysis time of the rope body 4 dispersed into each unit is 120 mm in the length of one rope body 4, and is measured in accordance with JIS P 45 0 1 (toilet toilet paper spread difficulty test) at 700 seconds. The following is ideal, preferably below 6 〇 0 seconds. More preferably, it is below 300 seconds. The above measurement is to pour 300 milliliters of ion exchange water with a water temperature of 20 ± 5 C in a beaker of 300 milliliters capacity, and put the rope 4 into the ion exchange water, and then rotate the water at 600 rpm in water. After the rotor is rotated, the rope body is stirred together with the ion-exchanged water, and the shape of the rope body is measured to dissipate or even remain in the form of a sheet-like shape until it is dispersed into the original constituent fibers. Fig. 5(A) and Fig. 5(B) are perspective views showing a method of manufacturing the hydrolyzable cleaning article 2 2 according to the second embodiment of the present invention.

The fiber compression body 21 shown in Fig. 5(A) is a compression of the cylindrical body 10 shown in Fig. 2 (A-18-(16) 1296514) by a force Fv in the direction of the center line 〇. Former. The conditions at the time of this compression are the same as those at the time of forming the fiber-compressed body 1 shown in Fig. 3. The fiber compression body 21 shown in Fig. 5(A) can be directly held by the grip 120 as a cleaning article. However, the cleaning article 22 shown in Fig. 5(B) is formed by cutting the fiber compression body 21 shown in Fig. 5(A). In this case, the fiber-compressed body 21 shown in Fig. 5(A) can be equally divided into two, or can be cut into three equal parts, and the angle of the range of 1 to 20 degrees can be made centered on the center line 0. Cleaning supplies 22. Alternatively, it may be cut into 4 equal parts, and the center line 〇 is centered, and the angle of the 90 degree range is made into each of the cleaning supplies 22. In the cleaning article 22, a portion in which the cut end surface 4b of the cord body 4 appears is used as the holding side end portion 23, and a portion of the loop portion 4c of the cord body 4 which appears substantially along the circumference is used as the sweep side end portion 24. use. The cleaning article 22 is also formed into a cylindrical body 10 formed by winding the rope body 4 as shown in Fig. 2(A), and then the cylindrical body is as shown in Fig. 5(A). 1 〇 The process of compression is formed, so that the enthalpy of the rope body 4 is not easily slack during the manufacturing process, and the enthalpy of the rope body 4 is not easily slackened during circulation or storage. In the cleaning article 22 shown in Fig. 5(B), since the rope body 4 is cut into a plurality of units having a short size, when the flush toilet is washed away and a large amount of water is taken, it is separated into individual parts. The rope body 4, the enthalpy of each rope body 4 becomes loose again and the fibers are dispersed in the water. Fig. 6 is a perspective view showing a water-disinfecting cleaning article 3 1 according to a third embodiment of the present invention. -19- (17) 1296514 The cleaning article 31 is such that the above-mentioned rope body 4 of a certain length is folded at a midpoint of the length dimension to be folded in half, and the bending portion 4 d is oriented in one direction and then a plurality of The rope bodies 4 are arranged in a bundle, and the bundle body 4 is compressed. The compression conditions at this time are the same as those in the case of producing the fiber compression body 1 1 shown in Fig. 3 and the fiber compression body 21 shown in Fig. 5 (A). In the cleaning article 3 1 shown in Fig. 6, the side on which the cut end faces 4g of the rope body 4 are aligned is the holding side end portion 32, and the side on which the bent portion 4d is aligned is the cleaning side end portion 33. The bundle 4 in a specific length range including the above-described holding-side end portion 32 is compressed to form a range in which the compressed portion 34' includes a specific length of the cleaning-side end portion 3 3, so that the rope body 4 is not compressed. Uncompressed portion 35. The compression portion 34 is used as a holding portion, and is used between the support portion 122 of the grip 120 shown in Fig. 1 and the pressing portion 123. In the compression unit 34, since the respective rope bodies 4 are compressed and fixed, the cleaning articles 31 in the dry state are not dispersed, and the shape can be maintained at any time during storage or transportation. Since the compression portion 34 is held by the support portion 1 22 and the holding member 1 23, water is caught during use, and even if the compression of the compression portion 34 is relaxed, the shape of the cleaning article 3 1 can be maintained. In the cleaning side end portion 3 3, since the bent portion 4d of each of the rope bodies 4 is in a free state, the widened range of the portion to be cleaned can be effectively cleaned by the independent operation of the bent portion 4d. If it is discarded in the flush toilet after use and receives a large amount of water, the cleaning supplies 31 will be separated into individual ropes 4. After the rope body 4 is changed - 20- (18) 1296514 Dispersion is then broken down. Further, the cleaning article 3 1 of Fig. 6 can also be compressed to form a compression portion as a whole. Further, in the cleaning article 1 shown in Fig. 4 and the cleaning article 2 shown in Fig. 5(B), a region having a specific length of the holding-side end portions 2, 2 3 may be formed as a compression portion, and The cleaning side end portions 3, 24 are formed as non-compressed portions. Further, in each of the above embodiments, the specific portion of the holding side end portion of the cleaning article may be wrapped with a hydrolyzed paper or a water-soluble film to form a holding portion. The hydrolyzable cleaning product of the embodiment shown in Fig. 7 to Fig. 9 is provided with a block-shaped fibrous compression body 40 having a specific volume. The fiber-compressed body 40 is a compacted body of a fiber which can be dispersed in water having a fiber length of 20 mm or less and which is highly densified. As the fiber constituting the fiber compression body 40, a regenerated cellulose fiber such as a natural fiber such as pulp fiber or a ray fiber is used. When these fibers are compressed, the mechanical bonding force and the hydrogen bonding force between the compressed fibers can be maintained in a block shape during drying. Alternatively, the fibers can be fixed with a water-soluble adhesive. In this case, synthetic resin fibers such as PET fibers, PP fibers, PE fibers, and nylon fibers may be contained. It is desirable that the fiber compression body 40 is formed only of biodegradable fibers. For example, the fiber compression body 40 is formed into a block shape using only pulp fibers. In this method, in order to disperse the pulp fibers in water, a cylindrical shape or the like is formed, and a concave mold having a porous portion for removing moisture is formed in the bottom portion, and the pulp fibers are poured, dehydrated, and heated to be dried. Or, in the compression model for pressurization in the model or other shapes described in the above -21(12) 1296514, the pulp fiber is supplied, dehydrated or dehydrated while being compressed and compressed by a hot press to dry it. By. Alternatively, it may be a mud-like raw material obtained by mixing pulp fibers, a tackifier, and a water-soluble binder, which is extruded by a screw extruder, and then dehydrated and heated to dry. In this extrusion, a cylindrical fiber compact is formed. Further, in a molding mold having a cavity having a specific shape, a fibrous body of any three-dimensional shape can be produced by extruding a mud-like material by a screw extruder and projecting it into a shape. When the fiber compression body 40 is pressurized by a hot press, the pressurization conditions are the same as those of the fiber compression body 11 shown in Fig. 3. Each of the fiber-compressed bodies 40 is formed by using fibers having a fiber length of 20 mm or less, preferably pulp fibers or the like. Therefore, when discarded in a flush toilet or the like, the fibers can be dispersed and dispersed in a short period of time. Therefore, the size of the fibrous compression body can be arbitrarily set according to the shape of the cleaning article. However, in order to allow the fiber-compressed body 40 to be decomposed in water in a short time, and each of the fiber-compressed bodies 40 contains 300% by weight of its own weight, the volume of the fiber-compressed body 4 is preferably more than 2 times as long as it can be swollen. . Further, the hydrolysis time of the one fiber compressed body 40 (measuring method as described above) is preferably 700 seconds or less, more preferably 600 seconds or less, and most preferably 300 seconds or less. Further, the mass of the fiber compression body 40 is preferably 20 g or less. 2〇g, equivalent to 9 m of toilet paper, is a general flush toilet, and it is not easy to produce a range of drain pipe obstruction. Further, if the fiber compression body is formed into a cylindrical shape, that is, a shape in which a through hole is formed along a line of the center -22-(20) 1296514, a hollow portion is formed in the block body, and is discarded in the flush toilet. It can be decomposed early. Further, when the inside of the block-shaped fiber-compressed body 40 contains a detergent, a honing agent, an antibacterial agent, a fragrance, or the like, the cleaning effect can be improved when the fiber-compressed body 40 is used. In the cleaning article shown in Fig. 7 to Fig. 9, the above-mentioned fiber compression body 40 and the rope body 4 are used. The rope body 4 is composed of any one of the reins 4A, 4B, and 4C shown in Fig. 5 (A > (B) (C), or two or more types are combined. The rope body 4 is not The above-mentioned reins are used for compression. However, in the embodiment of Fig. 7 to Fig. 9, as the cord body 4, a compression reel can be used as the fiber compression body. The fourth embodiment shown in Fig. 7 The hydrolyzable cleaning article 41 is provided with a plurality of the above-mentioned rope bodies 4 cut into a specific size around the cylindrical block-shaped fibrous compression body 40, and the respective rope bodies 4 are water-soluble at the base portion. The subsequent agent is attached to the peripheral surface of the fiber-compressed body 40. Further, at the base, a holding material 44 formed of a hydrolyzable sheet is wound around the outside of the rope body 4, and is then joined together by a water-soluble adhesive. The portion where the holding member 44 is wound is the holding portion 42, and the portion closer to the holding portion is the cleaning portion 43. The holding rod of the cleaning article 4 1 is not the support portion 122 and the pressing portion 123 shown in Fig. 1 . In a planar shape, the mutually opposing faces of the support portion 122 and the pressing portion 123 are cylindrical, and the holding portion 42 is a cylindrical branch. The portion 122 and the pressing portion 123 are clamped. The holding portion 42 of the cleaning article 41 is held by the grip bar so long as it can maintain the strength of the cylindrical shape. -23- (21) 1296514 The holding force of the water retaining material 44 is weakened, and the cleaning article 4 can be held by the support portion 122 and the pressing portion 1 2 3, so that no cleaning article 4 is cleaned during cleaning. In the case of being dismantled in water after use, the deformation is first started at the holding portion 42 having the holding member 44, and the fiber compression body 40 and the rope body 4 are separated in water. The fiber compression body 4 after being separated is then removed. And the rope body 4 is separately hydrolyzed. In a very short time that is discarded in the water, the fiber compression body 40 and the rope body 4 are separated from each other and washed away by the washing water of the flush toilet, so it is not easy to drain inside the pipe. In the cleaning portion 43, the fiber compression body 40 is located at the center, and the rope body 4 is located around the wire, and the cutting end surface 4e of the rope body 4 is directed toward the front end of the cleaning portion 43. If the fiber compression body 40 is in the toilet or the like Wiped by the cleaning part, even if the fiber is compressed by moisture 40 expansion, the shape of the block can be maintained, and the fibrous compression body 40 which absorbs the water becomes soft and can be cushioned. Therefore, the dirt adhering to the cleaning portion can be effectively removed, and the dirt can be removed and cleaned. Further, the tactile sensation of the portion is also softened. Further, the cord body 4 located around the fiber compression body 40 is diffused toward the periphery, and can be swept in a wide range to the respective corners of the portion to be cleaned. The hydrolyzable cleaning article 5 1 is located at the cleaning portion 53 at the periphery of the fiber compression body 40 at the rope body 4, but the rope body 4 is bent, and the bent portion 4f is oriented toward the cleaning portion 5 3 In the holding portion 52, a holding material 44 is wound around the base of the rope body 4 around the fibrous body 40 by a water-soluble adhesive, and then held together. In the rope body 4, the bent portion 4f is directed toward the end of the cleaning portion 5-3 -24- 1296514. As shown in Fig. 7, since the cut end surface 4e of the rope body 4 has no front end portion of the cleaning portion, Even if the bent portion 4f absorbs water, the rope body inspection state is not easily relaxed. The grip of the cleaning article 51 is held, the support portion 122 and the pressing portion 123 shown in Fig. 1 are planar, and the mutually facing faces of the support 1 22 and the pressing portion 1 23 are cylindrical, and the above-mentioned 52 It is sandwiched by the cylindrical support portion 122 and the pressing portion 123. In the hydrolyzable cleaning port F' of the sixth embodiment shown in Fig. 9, the ring portion 4h is formed by a plurality of rope bodies 4, and the end faces 49 of the rope body 4 are aligned. At the holding portion 62, the rope bodies 4 are followed by a water-soluble solvent, and the holding material 44 is wound on the outside and followed by a water-soluble material. A cylindrical or round hydrolyzable fibrous compression body 40 is inserted into the interior of each of the rope bodies 4, and the fibrous compression bodies 40 and 4 are respectively fixed by a water-soluble adhesive. When the cleaning device 6-1 presses the ring portion 4h of the rope body 4 to be cleaned, the fiber compression body 40 is supported as a core material, and the ring portion 4h of the rope body 4 is strongly pressed against the portion to be cleaned. The dirt can be removed. If the fibrous compression body 40 absorbs moisture and expands to become elastic, the ring portion 4h rubs back and forth on the portion to be cleaned with moderate pressure. Fig. 1 is a perspective view showing a water-disinfecting cleaning article 71 according to a seventh embodiment of the present invention. The fiber compression body 70 provided in the cleaning article 7 1 is formed by an upper molding method or the like, and is formed on the upper portion of the triangular prism portion having the inclined surface 70a facing each other, and is integrally formed with a specific width. b. In the respective inclined faces 70a, 70a, the water-soluble adhesive is applied to the fourth portion instead of the holding portion h 61 to cut off the squeezing agent cylindrical body sweeping portion. The am body, the clear statement 70a holding part has a complex -25- (23) 1296514 several ropes 4. In the rope body 4, the cut end faces 4g are aligned upward, and the bent portions 4f are aligned on the lower side. The bent portion 4f protrudes from the bottom surface 70c of the fiber compression body 70 to the lower side, and the bent portion 4f is free from each other. The cleaning unit 71' has a holding portion 70b that is held by the support portion 122 and the pressing portion 123 of the grip 120 of Fig. 1 . By pressing the bottom surface 70c of the fiber compression body 70 against the cleaning portion of the toilet or the like, the dirt of the cleaning portion can be removed, and the bent portion 4f of the rope body 4 can be expanded when it is joined to the portion to be cleaned. Therefore, it can be cleaned to a wider range, and even the corners are not missed. Fig. 1(A) is a perspective view showing a water-repellent cleaning article 8 1 according to an eighth embodiment of the present invention, and Fig. 1(B) is a developed perspective view showing a basic structure of the cleaning article 81. The water-repellent cleaning article 181 is provided with a holding portion 82 and a cleaning portion 83. The cleaning article 81 is provided with at least one cleaning monomer 88. In the embodiment of the figure, two cleaning cells 8 are superposed, and the upper portions of the cleaning cells 8 8 are each followed by a water-soluble adhesive, and the cleaning monomer 8 is further provided with a holding material such as a hydrolyzed paper. In addition, the holding material 84 is adhered to each of the cleaning monomers 8 8 by a water-soluble adhesive. In the cleaning unit 83, the cleaning units 8 8 are freely movable. Fig. 11(B) shows the structure of the cleaning unit 88 described above. The cleaning monomer 8 8 is a fiber-compressed body 8 in the form of a hydrolyzable outer sheet 8 5 . The outer sheet 85 is the same as the hydrolyzable sheet 8 forming the reins 4A shown in Fig. 5(A), and is a fiber interwoven nonwoven fabric. The composition of the fiber interlaced nonwoven fabric constituting the exterior sheet 85 is -26-(24) 1296514 or the composition of the fiber or the like is the same as that of the above-mentioned hydrolyzable sheet 8, and the fiber compressed body 86 is in the form of a sheet (plate shape). The plurality of sheets are overlapped and housed in the exterior sheet 85. The fiber-compressed body 86 is a layered and water-dispersible fiber having a fiber length of 20 mm or less. The fibers are regenerated cellulose fibers such as natural fibers such as pulp fibers or rayon fibers. In the compressed state, the fiber-compressed body 86 can maintain the shape of the sheet by the hydrogen bonding force of the cellulose-based fibers and the mechanical bonding force between the fibers by compression. Further, the fibers may be joined by a water-soluble adhesive. In this case, synthetic resin fibers such as PET fibers, PP fibers, PE fibers, and nylon fibers may be contained. However, the fibrous compression body 86 is preferably formed of only biodegradable fibers. For example, the fibrous compression body 86 is formed only of pulp fibers. The pressure at the time of compression is the same as that of the fiber-compressed body 11 shown in Fig. 3 and the fiber-compressed body 21 shown in Fig. 5(A), and the compression time is about 1 to 5 seconds. The compression is carried out at room temperature, but it can also be heated and compressed. Further, the hydrogen bonding force between the fibers can be further enhanced by heating and compressing in a state where water is supplied by a sprayer or the like. The fiber-compressed body 86 is formed by using a fiber having a fiber length of 20 mm or less, more preferably pulp fiber or the like. Therefore, when it is discarded in a flushing drum or the like, the fiber is dispersed and dispersed in a short time. Therefore, the size of the fiber compression body 86 can be arbitrarily set according to the shape of the cleaning article. However, in order to decompose the fiber-compressed body 86 in water in a short time, each of the fiber-compressed bodies 86 contains 300% of its own weight of water, and the fiber is compressed by -27-(25) 1296514. The volume is ideal for swelling more than 2 times. Further, the hydrolysis time of the one fiber compressed body 86 (measuring method as described above) is preferably 700 seconds or less, more preferably 600 seconds or less, and most preferably 300 seconds or less. Further, the total mass of the fiber-compressed body 86 used in the one cleaning article 8 1 is preferably 20 g or less. 2 0 g, which is equivalent to 9m of toilet paper, is not suitable for the scope of the drainage pipe in the general flush toilet. Further, the fibrous compression body 86 may contain a detergent, a honing agent, an antibacterial agent, a fragrance, and the like. As shown in Fig. 1(B), a plurality of fiber compression bodies 86 are superposed on the unfolded rectangular outer sheet 85, and the outer sheet 85 is bent at a portion of the imaginary line L. Then, the side edge portions 85 5 a on the long sides of the exterior sheet 85 are adhered to each other by a water-soluble adhesive agent so as not to sandwich the fiber compression body 8 6 . The edge portions 8 5 b of the short sides are then joined to each other by a water-soluble adhesive. Alternatively, the side edge portions 85 a and the edge portions 8 5 b may be superposed on each other or heated by the subsequent use of the water-soluble adhesive or by the subsequent use of the water-soluble adhesive. The pressurization is joined by the hydrogen bonding force and the mechanical bonding force of the exterior sheet 85. In the state in which the meandering portion 8 5 c which is formed by bending the outer sheet 85 at the imaginary line L is directed downward, at the containing end Within the specific width of the edge portion 8 5 b , the cleaning monomers 8 8 are each followed by a water-soluble adhesive, and the holding material 84 is then fixed. The cleaning device 81 has a holding portion 82 that is sandwiched and held between the support portion 122 and the pressing portion 123 of the grip 120 shown in Fig. 1 . When the cleaning portion 83 of the cleaning article 8 1 is rubbed back and forth in the cleaning portion of the toilet or the like, the -28-(26) 1296514 can be removed by the exterior sheet 85. Since the side surface of the cleaning portion 83 is a flat surface, the cleaning of the wide area can be performed by rubbing the side surface of the cleaning portion 83 back and forth on the portion to be cleaned. Since the exterior sheet 85 is formed of a fiber interwoven nonwoven fabric, the exterior sheet 85 is less likely to be damaged when the portion to be cleaned is wiped. When the water is given during the cleaning, the fiber compressed body 86 in the outer sheet 85 expands and exhibits elasticity, so that the portion to be cleaned can be wiped with an appropriate pressure by the outer sheet 85. φ Since the holding material 84 is a hydrolyzed paper which is used to paper pulp fibers, or a hydrolyzed paper in which the pulp fibers are paper-coated and then the water-soluble adhesive is used to bond the fibers, the cleaning article 81 is discarded in the water after use. When the holding force generated by the holding member 84 is immediately released, the cleaning items 88 are independent of each other. Further, in the water, the side edge portions 85 5 a of the outer sheet 85 and the edge portions 8 5 b are released from each other, and the outer sheet 85 and the fiber compressed body 86 are separated, and the outer sheet is separated. 85 and the fibrous compression body 86 are separated and broken down into individual fibers. In the embodiment shown in Fig. 12 to Fig. 14, the cleaning portion is composed of a sheet-like fiber compression body 90 and a rope body 4. In the same manner as the fiber-compressed body 86 shown in Fig. 1, the fiber-like fibrous body 90 having a fiber length of 20 mm or less is compressed and laminated to form a sheet, and is preferably formed of only pulp fibers. . The sheet-like fibrous compression body 90 is much more fibrous than the hydrolyzed paper 9 (having a basis weight of about 10 to 30 g/m 2 ) as shown in Fig. 15 (B) or the like, and the basis weight of the fibrous compression body 90 is much larger. It is about 500~1 000g/m2. Due to the sheet-like fibrous compression body 90, the basis weight is large, the density is high, and the rigidity is high.

(S -29-(27) 1296514, when it is disposed at the same time as the rope body 4 at the cleaning portion, it is easy to remove the dirt adhering to the surface of the cleaning portion such as the toilet by the sheet-like fibrous compression body 90 having a high rigidity. In addition, the rope body 4 can be freely deformed to wipe a wide range of the cleaning portion. Moreover, by the rope body 4, the cleaning of the corner portion of the toilet bowl becomes easier. If it is discarded after use, it is flushed. In the case of the toilet, the sheet-like fibrous compression body 90 is decomposed into pulp fibers in a short period of time. The hydrolyzable cleaning article 91 of the ninth embodiment shown in Fig. 2 has a plurality of overlapping sheets. In the state of the sheet-like fibrous compression body 90 (for example, about 5 to 20 pieces), a plurality of rope bodies 4 are disposed around the fiber compression body 90. The fiber compression body 90 and the rope body 4 are followed by a water-soluble adhesive agent at the holding portion 92. The holding material 44 formed of the hydrolyzed paper or the like is wound around the same and is followed. At the cleaning portion 93, the respective sheet-like fibrous compression bodies 90 are independent of each other, and the rope body 4 is also independent. Further, the cut end surface 4e of the rope body 4 is directed toward the front end of the cleaning portion 93. The grip of the cleaning article 91 is not in the planar shape of the support portion 122 and the pressing portion 123 shown in Fig. 1, and the mutually opposing faces of the support portion 1 22 and the pressing portion 1 23 are cylindrical, and the holding portion 92 is provided. The cleaning member 9 is sandwiched between the cylindrical support portion 122 and the pressing portion 123. When the front end portion of the cleaning portion 93 is pressed against the cleaning portion, the sheet-like fibrous compression body is used. The end surface of the 90 is wiped by the cleaning portion, and the rope body 4 is expanded to clean the wide range of the cleaning portion, and the corner portion of the toilet or the like can be cleaned by the rope body 4. The article 91 may have a structure in which the bent portion 4f of the cord body 4-30-(28) 1296514 shown in Fig. 8 is located in the cleaning portion 93. The hydrolyzability of the first embodiment shown in Fig. 3 is shown. For cleaning, 100 1 is used, and a sheet-like fibrous compression body 90 having a hydrolyzability which is substantially the same as that of the cleaning article 101 is superimposed on one or more sheets. The plurality of strips 4 are formed into a ring shape, and the ring portion 4h is formed. It is disposed so as to surround the lower side 90a of the sheet-like fibrous press body 90. The cut end faces of the respective rope bodies 4 are in the form of flakes. The upper side 90b of the fiber compression body 90 is combined, and the vicinity of the cut end surface 4g of the rope body 4 is attached to both sides of the sheet-like fiber compression body 90, and the holding material 44 is wound around and then lifted up. The flat portion of the holding portion 102 is formed. The respective rope bodies 4 of the cleaning portion 103 can be independently operated, and the sheet-like fiber compression 90 can also be independently operated. The cleaning material 1 0 1 is provided by the cleaning portion 1 03. The paired cleaning portion rubs back and forth in the Y direction shown in Fig. 13, and the lower side 90a of the sheet-like fibrous press body 90 can be wiped hard on the portion to be cleaned. If it is further turned back and forth in the X direction perpendicular to the Y direction. At the time of friction, the portion to be cleaned can be cleaned by the ring portion 4h of each of the rope bodies 4. In the first aspect of the present invention, the hydrolyzable cleaning 1 1 1 of the first embodiment is a plurality of rectangular hydrolyzed sheet-like fibrous compacts 90, and a plurality of strands are disposed on both sides thereof. In the body 4, a holding portion 1 1 2 having a flat shape is formed by winding a holding material 4 4 on the upper portion of the sheet-like fiber compression body 90 and the upper portion of the rope body 4. In the cleaning 1 1 3 ′ position, the plurality of rope bodies 4 and the fiber compression body 90 whose mutually cut end faces 4e are directed toward the lower side are provided. The product of the large rope is reduced by 4g, and the strip is folded upwards. -31 - (29) (29)1296514 The cleaning article η l can also be compressed by the flaky fiber 9 ο and the rope body 4 To wipe it. Further, the cord body 4 located on both side faces of the sheet-like fibrous compression body 90 may be such that the bent portion 4f shown in Fig. 8 or the loop portion 4h shown in Fig. 9 is directed downward. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a state in which a hydrolyzable cleaning article of the present invention is held on a grip. Fig. 2(A) and Fig. 2(B) are perspective views showing a method of producing a fibrous compression body constituting the water-repellent cleaning article according to the first embodiment. Fig. 3 is a perspective view showing a fiber compact of the water-repellent cleaning article of the first embodiment. Fig. 4 is a perspective view showing a water-repellent cleaning article according to an i-th embodiment in which a fibrous compression body is cut. Fig. 5(A) is a perspective view showing a fiber compression body constituting the water-repellent cleaning article of the second embodiment. (B) is a perspective view showing a hydrolyzable cleaning article according to the second embodiment in which the fiber compressed body is cut. Fig. 6 is a perspective view showing the water-repellent cleaning article of the third embodiment. Fig. 7 is a perspective view showing the water-repellent cleaning article of the fourth embodiment. Fig. 8 is a perspective view showing the water-repellent cleaning article of the fifth embodiment. Fig. 9 is a view showing the body of a hydrolyzable cleaning article according to the sixth embodiment, 32-(30) (30) 1296514. Fig. 1 is a perspective view showing a water-repellent cleaning article according to a seventh embodiment. Fig. 1(A) is a perspective view showing a water-repellent cleaning article according to the eighth embodiment. (B) is a perspective view of a cleaning article. Fig. 1 is a perspective view showing the water-repellent cleaning article of the ninth embodiment. Fig. 13 is a perspective view showing the water-repellent cleaning article of the tenth embodiment. Fig. 14 is a perspective view showing the water-repellent cleaning article of the first embodiment. Fig. 15(a)(B)(C) is an explanatory view showing the reins for forming a rope body according to the structure. [Explanation of main component symbols] 1 : Cleaning supplies 2 : Holding side end portion 3 : Cleaning side end portion 4 : Rope body 4 A, 4 B, 4 C : Reins 4a : Ring portion 4 : Cutting end face 4 c . Mourning part 4d : Bending part -33- (31) 1296514 4e : Cutting end face 4f : Bending part 4g : Cutting end face 4 h · 哀 部 part • 8 : Hydrolyzable sheet. 9: Hydrolyzed paper 1 〇: tube Shape 1 1 : Fiber compression body 2 1 : Fiber compression body 23 : Holding side end portion 24 cleaning side end portion 3 1 : Cleaning article 3 2 : Holding side end portion 3 3 : Cleaning side end portion 3 4 : Compression portion • 3 5 : uncompressed portion 40 fiber compression body 4 1 , 5 1 , 6 1 : cleaning articles 42, 52, 62: holding portions 43 , 53 , 63 : cleaning portion 4 4 : holding material 70 : fiber compression body 71 : Cleaning material 7〇b: holding portion -34 (32) (32) 1296514 8 1 : cleaning material 8 2 : holding portion 8 3 : cleaning portion 84 : holding material 8 5 : hydrolyzable sheet 86 : fiber compression body 8 8 : Cleaning monomer 9 1 , 1 0 1 , 1 1 1 : cleaning supplies 9 2, 1 0 2, 1 1 2 : holding portion 9 3, 1 0 3, 1 1 3 : cleaning portion 1 2 0 : grip 122 : Support Department 123: Compression Department

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Claims (1)

12妒14 (1) X. Patent application scope 吟A month inquiry repair) Replacement page 95 1 1 5770 Patent application Chinese application patent scope amendments The cleaning product is a hydrolyzable cleaning product which is dispersible in water and is characterized in that it has a fiber compression body which is compressed by water-dispersible fibers. The fibers constituting the fiber-compressed body are joined by at least one of hydrogen bonding, followed by water-soluble adhesive, and fiber interlacing, and a cord body obtained by kneading the hydrolyzable sheet is formed; The body is compressed to form the above-mentioned fiber compression body. The hydrolyzable cleaning article according to claim 1, wherein the gripper for holding the fiber compression body in a detachable manner is provided. 3. The hydrolyzable cleaning article according to claim 2, wherein the fibrous compression body has a portion which is a compression portion and the other portion is an uncompressed portion, and the compression portion is held by the grip. 4. The hydrolyzable cleaning article according to claim 1, wherein the plurality of the above-mentioned rope bodies are wound up and compressed to form the above-mentioned fiber compression body. The hydrolyzable cleaning article according to claim 1, wherein the fiber compressed body is a fiber which is laminated and compressed into a sheet or a block.伶修 (more) replacement page 1296514 Λ (2) 6. The hydrolyzable cleaning article of claim 5, wherein the hydrolyzed sheet is a scalloped or lumpy The fiber compression body is used. 7. The hydrolyzable cleaning article according to the first aspect of the invention, wherein the hydrolyzable sheet forming the rope body is a fiber interwoven nonwoven fabric obtained by interlacing fibers having a fiber length of 20 mm or less. 8. The hydrolyzable cleaning article according to claim 1, wherein the rope body is a fiber interwoven non-woven fabric obtained by interweaving fibers having a fiber length of 20 mm or less, and hydrolysis by cellulose fibers. Made up of paper. 9. The hydrolyzable cleaning article according to item 6 of the patent application, wherein the flaky or block-shaped fibrous compressed body is surrounded by a hydrolyzable outer sheet. 1 . The hydrolyzable cleaning article according to claim 9, wherein the outer sheet is a fiber interwoven nonwoven fabric obtained by interlacing fibers having a fiber length of 20 mm or less. The hydrolyzable cleaning article according to claim 7, wherein the fiber interlaced nonwoven fabric is composed of pulp fibers and other fibers having a fiber length of 20 mm or less.