CLEANING SHEET AND CLEANING INSTRUMENT PACKAGE

TECHNICAL FIELD

The present invention relates to a cleaning sheet and a cleaning tool package for cleaning an object to be cleaned. This application claims priority based on Japanese Patent Application No. 2014-163138 filed Aug. 8, 2014, the disclosure of which is incorporated herein by reference in its entirety.

BACKGROUND ART

Japanese Unexamined Patent Application Publication (JP-A) No. 2008-253286 discloses a cleaning tool having a cleaning element and a cleaning element holder. This publication is centered on a technique for providing the cleaning tool having a single cleaning element and a single cleaning element holder. Therefore, further improvement is required to provide a technique for using different kinds of cleaning element holders.

PRIOR ART DOCUMENT
Patent Document

Patent Document 1: JP-A No. 2008-253286

SUMMARY OF THE INVENTION
Problem to be Solved by the Invention

Accordingly, it is an object of the present invention to provide a more rational constructing technique for a cleaning sheet and a cleaning tool package.

Embodiments for Solving the Problem

In order to solve the above problem, according to the present invention, a cleaning sheet is provided which is configured to be attached to plural kinds of holders. The cleaning sheet has sheet-like members, a receiving part configured to receive the holders by superposing the sheet-like members, and a bonded part that defines an outer edge of the receiving part by bonding the superposed sheet-like members. An insertion direction of the holders in the receiving part defines an insertion axis. The receiving part has an opening and a receiving space formed contiguously to the opening and extending in a direction of the insertion axis. The receiving space has a first receiving region for a first one of the holders and a second receiving region for a second one of the holders which is different from the first holder.

According to this invention, the first and second holders having different structures can be used with the single cleaning sheet.

In one aspect of the solution in the cleaning sheet according to this invention, the first holder has a first long part to be inserted into the receiving space and a first projection formed on the first long part. The second holder has a second long part to be inserted into the receiving space and a second projection formed on the second long part. Further, the first receiving region is configured to receive the first projection, and the second receiving region is configured to receive the second projection.

In one aspect of the solution in the cleaning sheet according to this invention, the first receiving region and the second receiving region are adjacent to each other in the direction of the insertion axis.

In one aspect of the solution in the cleaning sheet according to this invention, the bonded part has a first receiving region formation part for forming the first receiving region and a second receiving region formation part for forming the second receiving region.

In one aspect of the solution in the cleaning sheet according to this invention, the first receiving region has a pair of end regions, and the first receiving region formation part has a first front end bonded part forming one of the end regions of the first receiving region, and a first rear end bonded part forming the other end region of the first receiving region.

In one aspect of the solution in the cleaning sheet according to this invention, the second receiving region has a pair of end regions, and the second receiving region formation part has a second front end bonded part forming one of the end regions of the second receiving region, and a second rear end bonded part forming the other end region of the second receiving region.

In one aspect of the solution in the cleaning sheet according to this invention, the first rear end bonded part also serves as the second front end bonded part.

In one aspect of the solution in the cleaning sheet according to this invention, the opening includes a first opening, a second opening formed on the opposite side to the first opening in the direction of the insertion axis, a first opening-side region including the first opening and a second opening-side region including the second opening. The first receiving region and the second receiving region are both formed in the first opening-side region and the second opening-side region.

According to this aspect of the invention, whether the first or second holder is inserted from the first opening or the second opening, the first or second holder can be attached to the cleaning sheet in either case.

According to a further aspect of the cleaning sheet of the present invention, the receiving part has a separation bonded part for separating the receiving space.

According to this aspect of the invention, the holder of which part to be inserted into the cleaning sheet has a bifurcated shape, for example, may be suitably used.

In order to solve the above problem, according to this invention, a cleaning tool package is provided which has a first holder, a second holder having a different structure from the first holder and a cleaning sheet configured to be attached to the first and second holders, and the cleaning tool package is formed by combination of either one of the first and second holders and the cleaning sheet.

The cleaning sheet has sheet-like members, a receiving part configured to receive the holders by superposing the sheet-like members, and a bonded part that defines an outer edge of the receiving part by bonding the superposed sheet-like members. An insertion direction of the holders in the receiving part defines an insertion axis. The receiving part has an opening and a receiving space formed contiguously to the opening and extending in a direction of the insertion axis. The receiving space has a first receiving region for the first holder and a second receiving region for the second holder.

According to this invention, the first and second holders having different structures can be used with the single cleaning sheet.

Effect of the Invention

According to this invention, a more rational constructing technique for a cleaning sheet and a cleaning tool package is provided.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an explanatory drawing for illustrating the structure of a first holder.

FIG. 2 is an explanatory drawing for illustrating the structure of a long part of the first holder.

FIG. 3 is an explanatory drawing for illustrating the structure of a second holder.

FIG. 4 is an explanatory drawing for illustrating the structure of a long part of the second holder.

FIG. 5 is a sectional view taken along line II-II in FIG. 3.

FIG. 6 is a front view showing an overall structure of a cleaning sheet according to an embodiment of the present invention.

FIG. 7 is a sectional view taken along line I-I in FIG. 6.

FIG. 8 is an explanatory drawing for illustrating a receiving part in the cleaning sheet.

FIG. 9 is an explanatory drawing for illustrating a bonded part in the cleaning sheet.

FIG. 10 is an explanatory drawing for illustrating the structure of the bonded part.

FIG. 11 is an explanatory drawing for illustrating the structure of an insertion-side region.

FIG. 12 is an explanatory drawing for illustrating the structure of the insertion-side region.

FIG. 13 is an explanatory drawing for illustrating the structure of the insertion-side region.

FIG. 14 is an explanatory drawing for illustrating the structure of a removal-side region.

FIG. 15 is an explanatory drawing for illustrating the structure of the removal-side region.

FIG. 16 is an explanatory drawing for illustrating the structure of the removal-side region.

FIG. 17 is an explanatory drawing for illustrating the structures of the insertion-side region and the removal-side region in the cleaning sheet.

FIG. 18 is an explanatory drawing for illustrating the operation of a cleaning tool.

FIG. 19 is an explanatory drawing for illustrating the operation of the cleaning tool.

FIG. 20 is an explanatory drawing for illustrating the operation of the cleaning tool.

MODES FOR CARRYING OUT THE INVENTION

(Brief Description of the Cleaning Sheet and the Cleaning Tool)

Embodiments of a cleaning sheet and a cleaning tool according to the present invention are now described with reference to FIGS. 1 to 20. The cleaning tool is formed by attaching a holder G100 shown in FIG. 1 to a cleaning sheet B100 shown in FIG. 6. The cleaning sheet B100 and the holder G100 are example embodiments that correspond to the “cleaning sheet” and the “holder”, respectively, according to this invention. The cleaning sheet B100 may be sold separately, or packed together with the holder G100 and sold. The cleaning sheet B100 and the holder G100 packed together for sale form a cleaning tool package. The holder G100 includes holders of two different kinds shown in FIGS. 1 and 3 which are properly used according to the usage. For the sake of convenience, the holders shown in FIGS. 1 and 3 are referred to as a first holder G100 and a second holder G200, respectively. The cleaning tool package is provided by combination of either one of the first and second holders G100, G200 and the cleaning sheet B100. The cleaning tool package may also be provided by combination of both of the first and second holders G100, G200 and the cleaning sheet B100. The first holder G100 and the second holder G200 are example embodiments that correspond to the “first holder” and the “second holder”, respectively, according to this invention.

The cleaning sheet B100 may be of disposable type designed for single use, or disposable type designed for multiple use which can be used several times, while holding dust or dirt collected from a cleaning surface to be cleaned.

(Description of the Holder)

The holders are now described with reference to FIGS. 1 to 5. FIGS. 1 and 2 show the first holder G100, and FIGS. 3 to 5 show the second holder G200.

As shown in FIG. 1, the first holder G100 has the long part G110 to be held in the receiving part C100 of the cleaning sheet B100, and a handle part G160 to be held by a user. The long part G110 has a tip G120, a base G130 and an extending part G140 extending between the tip G120 and the base G130. The extending part G140 extends in a bifurcated shape from the base G130. Thus, the long part G110 has the single base part G130 and has two each of the tips G120 and the extending parts G140. The extending part G140 has the projection G150. The projection G150 includes a tip-side projection G151 on the tip G120 side and a base-side projection G152 on the base G130 side. The handle part G160 has a front end G161, a rear end G162 and a grip G163 extending between the front end G161 and the rear end G162. The base G130 of the long part G110 and the front end G161 of the handle part G160 are configured to be removable from each other.

FIG. 2 is a side view of the long part G110 of the first holder G100. As shown in FIG. 2, the long part G110 has a tapered structure having a thickness gradually decreasing from the base 130 toward the tip G120, but macroscopically has a substantially flat shape.

As shown in FIG. 3, the second holder G200 has the long part G210 to be held in the receiving part C100 of the cleaning sheet B100, and a handle part G260 to be held by a user. The long part G210 has a tip G220, a base G230 and an extending part G240 extending between the tip G220 and the base G230. The extending part G240 extends in a bifurcated shape from the base G230. Thus, the long part G210 has the single base part G230 and has two each of the tips G220 and the extending parts G240.

The extending part G240 has a first extending part G241 and a second extending part G242. In the bifurcated extending part G240, the first extending parts G241 are configured to be located closer to each other, and the second extending parts G242 are configured to be located away from each other. More specifically, as shown in FIG. 3, the two first extending parts G241 are curved to protrude in a direction toward each other in the direction of the second axis A100x, and the two second extending parts G242 are curved to protrude in a direction away from each other in the direction of the second axis A100x.

The second extending part G242 of the extending part G240 has a projection G250. The projection G250 includes a tip-side projection G251 on the tip G220 side and a base-side projection G252 on the base G230 side. The handle part G260 has a front end G261, a rear end G262 and a grip G263 extending between the front end G261 and the rear end G262. The base G230 of the long part G210 and the front end G261 of the handle part G260 are configured to be removable from each other.

FIG. 4 is a side view of the long part G210 of the second holder G200. FIG. 5 is a sectional view taken along line II-II in FIG. 3. As shown in FIGS. 4 and 5, the first extending part G241 and the second extending part G242 are curved in a direction away from each other. Specifically, as shown in FIG. 4, the first extending part G241 is curved such that a central region of the first extending part G241 protrudes downward as viewed in FIG. 4, and the second extending part G242 is curved such that a central region of the second extending part G242 protrudes upward as viewed in FIG. 4. Thus, the long part G210 macroscopically has a substantially three-dimensional shape.

When a connection part between the base G130 and the extending parts G140 in the first holder G100 and a connection part between the base G230 and the extending parts G240 in the second holder G200 are aligned side by side on the second axis A100x, the base-side projection G152 of the first holder G100 and the base-side projection G252 of the second holder G200 are located in substantially the same region on the second axis A100x. At this time, however, the tip-side projection G151 of the first holder G100 is located toward the base G130 compared with the tip-side projection G251 of the second holder G200.

Therefore, the tip-side projection G151 and the base-side projection G152 are received in the first receiving regions C310 shown in FIG. 8 when the first holder G100 is attached to the cleaning sheet B100, while the tip-side projection G251 is received in the second receiving region C320 and the base-side projection G252 is received in the first receiving region C310 when the second holder G200 is attached to the cleaning sheet B100. The structures of the first and second receiving regions C310, C320 are described below in more detail.

The first holder G100 and the second holder G200 are formed of a resin material. In this embodiment, polypropylene (PP) is used.

(Basic Structure of the Cleaning Sheet)

The basic structure of the cleaning sheet B100 is now described with reference to FIGS. 6 and 7. FIG. 6 is a plan view showing the cleaning sheet B100, and FIG. 7 is a sectional view taken along line I-I in FIG. 6.

As shown in FIG. 7, the cleaning sheet B100 includes a sheet-like member B110 and a fiber bundle B200. The sheet-like member B110 has a first sheet B111, a second sheet B112 and a third sheet B113. The first sheet B111 and the second sheet B112 are superposed one on the other. The fiber bundle B200 is disposed between the second sheet B112 and the third sheet B113. The sheet-like member B110 and the fiber bundle B200 are bonded by a prescribed bonded part D100. A receiving part C100 for receiving a long part G110 of the holder G100 shown in FIG. 1 is formed between the first sheet B111 and the second sheet B112. Further, the receiving part C100 is also capable of receiving a long part G210 of the holder G200 shown in FIG. 3. The receiving part C100 is formed by bonding the first and second sheets B111, B112 at the bonded part D100. Specifically, the bonded part D100 defines an outer edge of the receiving part C100. The structures of the bonded part D100 and the receiving part C100 are described below in further detail. The sheet-like member B110, the bonded part D100 and the receiving part C100 are example embodiments that correspond to the “sheet-like member”, the “bonded part” and the “receiving part”, respectively, according to this invention.

As shown in FIG. 6, the cleaning sheet B100 defines a first axis A100y parallel to an insertion direction A110y of the long part G110, G210 into the receiving part C100. A direction opposite to the insertion direction A110y in the direction of the first axis A100y defines a removal direction A120y. A direction crossing the first axis A100y defines a second axis A100x. The insertion direction A110y, the removal direction A120y and the first axis A100y are example embodiments that correspond to the “insertion direction”, the “removal direction” and the “insertion axis”, respectively, according to this invention.

As shown in FIG. 6, the receiving part C100 has an opening C110 and a receiving space C200 formed contiguously to the opening C110 and extending in the direction of the first axis A100y. The opening C110 and the receiving space C200 are example embodiments that correspond to the “opening” and the “receiving space”, respectively, according to this invention. As shown in FIG. 6, the first sheet B111 is shorter than the second sheet B112 in the direction of the first axis A100y. The opening C110 includes a first opening C111 and a second opening C112 formed on the opposite side to the first opening C111 in the direction of the first axis A100y. The first opening C111 and the second opening C112 are example embodiments that correspond to the “first opening” and the “second opening”, respectively, according to this invention.

The first, second and third sheets B111, B112, B113 have a plurality of cuts B310 extending in the direction of the second axis A100x. Strips B300 are formed between adjacent ones of the cuts B310.

The sheet-like member B110 is formed by nonwoven fabric of thermal melting fibers (thermoplastic fibers).

The fiber bundle B200 is formed by a fiber structure in order to be made capable of cleaning a subject to be cleaned. In this invention, the fiber structure refers to a structure formed of “fibers”. In this invention, the “fibers” include typical single fibers, and typical fibers aligned in the length direction and/or the radial direction (twist yarn, spun yarn, yarn to which a plurality of filaments are partially connected). The “typical fiber” here refers to a component of a fiber structure such as yarn and textile and is a thin and flexible fiber having a substantially longer length compared with the thickness. Typically, a long continuous fiber is defined as a filament and a short fiber as a staple.

In the cleaning sheet B100 according to this embodiment, the fiber bundle B200 is formed by a fiber assembly of fibers having orientation in a prescribed direction. Specifically, the fiber assembly is formed by an assembly of fibers having orientation in the direction of the second axis A100x.

The fiber assembly is formed of layered fibers having orientation in the direction of the second axis A100x. The fibers are flexible and thus easily bent and deformed. Therefore, the orientation direction of the fibers refers to the fiber orientation in product design.

Preferably, the fiber assembly is an assembly of filaments made of polyethylene terephthalate (PET) and obtained by opening a tow in practical use.

(Description of the Receiving Part)

The receiving part C100 of the cleaning sheet B100 is now described with reference to FIG. 8. The outer edge of the receiving part C100 is defined by a plurality of the bonded parts D100. Further, the cleaning sheet B100 has a separation bonded part (sixth bonded part) D106 passing through its center in the direction of the second axis A100x and extending in the direction of the first axis A100y. The receiving space C200 is separated into right and left parts as viewed in FIG. 8 by the separation bonded part D106. The separation bonded part D106 is an example embodiment that corresponds to the “separation bonded part” according to this invention.

The opening C110 includes the first opening C111, the second opening C112 formed on the opposite side to the first opening C111 in the direction of the first axis A100y, a first opening-side region C111a including the first opening C111 and a second opening-side region C112a including the second opening C112. The first opening C111, the second opening C112, the first opening-side region C111a and the second opening-side region C112a are example embodiments that correspond to the “first opening”, the “second opening”, the “first opening-side region” and the “second opening-side region”, respectively, according to this invention.

The receiving space C200 includes a first receiving region C310 and a second receiving region C320. The first receiving region C310 is formed for the first holder G100, and the second receiving region C320 is formed for the second holder G200. The first receiving region C310 and the second receiving region C320 are example embodiments that correspond to the “first receiving region” and the “second receiving region”, respectively, according to this invention.

More specifically, the first holder G100 shown in FIG. 1 has a first long part G110 to be inserted into the receiving space C200 and a first projection G150 formed on the first long part G110. The second holder G200 shown in FIG. 3 has a second long part G210 to be inserted into the receiving space C200 and a second projection G250 formed on the second long part G210. When the first holder G100 is attached to the cleaning sheet B100, the first receiving region C310 receives the first projection G150. When the second holder G200 is attached to the cleaning sheet B100, the second receiving region C320 receives the second projection G250. That “the projection is received in the receiving region” does not represent that all of the projections of the holder are received in the specific receiving region. For example, the second holder G200 has two second projections G250 as described below, but at least one of them may be received in the second receiving region C320.

The first receiving region C310 and the second receiving region C320 are adjacent to each other in the direction of the first axis A100y. The first receiving region C310 has a front end C311 and a rear end C312, and the second receiving region C320 has a front end C321 and a rear end C322. The first long part G110 and the first projection G150 are example embodiments that correspond to the “first long part” and the “first projection”, respectively, according to this invention. The second long part G2210 and the second projection G250 are example embodiments that correspond to the “second long part” and the “second projection”, respectively, according to this invention.

(Description of the Bonded Part)

The bonded part D100 of the cleaning sheet B100 is now described with reference to FIG. 9. The bonded part D100 is formed by welding the sheet-like member B110 and the fiber bundle B200. The bonded part D100 includes a first bonded part D101, a second bonded part D102, a third bonded part D103, a fourth bonded part D104, a fifth bonded part D105 and a sixth bonded part D106. A pair of each of the first to fourth bonded parts D101, D102, D103, D104 are formed on the second axis A100x. The first to fifth bonded parts D101 to D105 are symmetrically arranged in the first opening-side region C111a and the second opening-side region C112a. The first bonded parts D101, the second bonded parts D102, the third bonded parts D103 and the fourth bonded parts D104 are arranged in this order when viewed from the opening C110. The fifth bonded part D105 is formed on the sixth bonded part D106 on the second axis A100x passing through the second bonded parts D102. Specifically, as shown in FIG. 9, the fifth bonded parts D105 and the sixth bonded part D106 are overlapped with each other.

As shown in FIG. 7, the sixth bonded part D106 bonds the first sheet B111, the second sheet B112, the fiber bundle D200 and the third sheet B113. The first to fifth bonded parts D101 to D105 bond the first sheet B111, the second sheet B112 and part of the fiber bundle B200.

As shown in FIG. 9, the receiving space C200 has a first space region C201 having a prescribed width and a second space region C202 having a smaller width than the first space region C201, in the direction of the second axis A100x. The first space region C201 is disposed closer to the opening C110 than the second space region C202 in the direction of the first axis A100y. The first space region C201 is defined between the pair of the first bonded parts D101. The second space region C202 is defined between the pair of the second bonded parts D102. Thus, the distance between the pair of the first bonded parts D101 is longer than the distance between the pair of the second bonded parts D102 in the direction of the second axis A100x. The first space region C201 and the second space region C202 are symmetrically formed in the first opening-side region C111a and the second opening-side region C112a.

As shown in FIG. 9, the fifth bonded part D105 is formed in the second space region C202. The fifth bonded part D105 forms a high rigidity part C400 having higher rigidity than the other parts in the receiving part C100. Here, the first to fourth bonded parts D101 to D104 forming the outer edge of the receiving part C100 are not included in “the other parts in the receiving part C100”. Further, the fifth bonded part D105 is configured to be wider than the sixth bonded part D106 in the direction of the second axis A100x. Thus, the region of the fifth bonded part D105 (the high rigidity part C400) has higher rigidity than the other parts in the receiving part C100.

The first receiving region C310 receives the projection G150 of the holder G100, and the second receiving region C320 receives the projection G250 of the holder G200. Therefore, the first receiving region C310 and the second receiving region C320 can be said to be projection receiving regions.

The first receiving region C310 and the second receiving region C320 are formed by a first receiving region formation part D110 and a second receiving region formation part D210, respectively. The first receiving region formation part D110 and the second receiving region formation part D210 are example embodiments that correspond to the “first receiving region formation part” and the “second receiving region formation part”, respectively, according to this invention.

As shown in FIG. 8, the first receiving region C310 has a front end C311 and a rear end C312, and the second receiving region C320 has a front end C321 and a rear end C322. As shown in FIG. 9, the first receiving region formation part D110 has a first front end bonded part D111 forming the front end C311 of the first receiving region C310, and a first rear end bonded part D112 forming the rear end C312 of the first receiving region C310. The first front end bonded part D111 is formed by the third bonded part D103, and the first rear end bonded part D112 is formed by the second bonded part D102. Further, the second receiving region formation part D210 has a second front end bonded part D211 forming the front end C321 of the second receiving region C320, and a second rear end bonded part D212 forming the rear end C322 of the second receiving region C320. The second front end bonded part D211 is formed by the second bonded part D102, and the second rear end bonded part D212 is formed by the first bonded part D101. Thus, the second bonded part D102 serves as both the first rear end bonded part D112 and the second front end bonded part D211. With such a structure, the first receiving region C310 and the second receiving region C320 are formed adjacent to each other.

The first front end bonded part D111 and the first rear end bonded part D112 are example embodiments that correspond to the “first front end bonded part” and the “first rear end bonded part”, respectively, according to this invention. The second front end bonded part D211 and the second rear end bonded part D212 are example embodiments that correspond to the “second front end bonded part” and the “second rear end bonded part”, respectively, according to this invention.

As described above, in the embodiment of this invention, the first receiving region formation part D110 and the second receiving region formation part D210 are formed by respective pairs of bonded parts, but they may be formed by respective single bonded parts.

(Description of the Insertion-Side Region and the Removal-Side Region in the Bonded Part)

An insertion-side region D300 and a removal-side region D400 in the bonded part D100 are now described with reference to FIGS. 10 to 17. In this embodiment, the insertion-side region D300 and the removal-side region D400 which are described below are formed in the first to third bonded parts D101 to D103. Referring to FIGS. 10 to 17, the second bonded part D102 is shown and described as a representative example of the bonded parts having the insertion-side region D300 and the removal-side region D400. Further, the first holder G100 is shown and described as a representative example of the holders.

As shown in FIG. 10, the second bonded part D102 has the insertion-side region D300 which gets into contact with the projection G150 when the holder G100 is moved in the insertion direction A110y such that the long part G110 of the holder G100 is received in the receiving part C100. Further, the second bonded part D102 has the removal-side region D400 which gets into contact with the projection G150 when the long part G110 received in the receiving part C100 is moved in the removal direction A120y.

The insertion-side region D300 defines an insertion starting point D301 with which the projection G150 moving in the insertion direction A110y first gets into contact as shown in FIG. 11, and an insertion end point D302 which is an end point of contact of the projection G150 moving in the insertion direction A110y as shown in FIG. 12. Further, as shown in FIG. 13, the insertion-side region D300 defines a first insertion line D303 connecting the insertion starting point D301 and the insertion end point D302, a second insertion line D304 passing through the insertion starting point D301 along the second axis A100x, and an insertion angle D305 made by the first insertion line D303 and the second insertion line D304.

The removal-side region D400 defines a removal starting point D401 with which the projection G150 moving in the removal direction A120y first gets into contact as shown in FIG. 14, and a removal end point D402 which is an end point of contact of the projection G150 moving in the removal direction A120y as shown in FIG. 15. Further, as shown in FIG. 16, the removal-side region D400 defines a first removal line D403 connecting the removal starting point D401 and the removal end point D402, a second removal line D404 passing through the removal end point D402 along the second axis A100x, and a removal angle D405 made by the first removal line D403 and the second removal line D404.

The insertion angle D305 shown in FIG. 13 is formed to be smaller than the removal angle D405 shown in FIG. 16.

The insertion-side region D300 and the removal-side region D400 described above with reference to FIGS. 10 to 16 are formed in the first to third bonded parts D101 to D103. As shown in FIG. 17, the insertion-side regions D300 in the first to third bonded parts D101 to D103 are referred to as a first insertion-side region D310, a second insertion-side region D320 and a third insertion-side region D330, respectively. Further, the removal-side regions D400 in the first to third bonded parts D101 to D103 are referred to as a first removal-side region D410, a second removal-side region D420 and a third removal-side region D430, respectively.

(Description of Operation)

Operation of the cleaning tool according to this invention is now described with reference to FIGS. 18 to 20. FIGS. 18 and 19 are explanatory drawings for illustrating the operation when the first holder G100 is used, and FIG. 20 is an explanatory drawing for illustrating the operation when the second holder G200 is used. For the sake of convenience, operation of only one of the long parts G140 or G240 is shown and described.

First, as shown in FIG. 18, the tip G120 of the first holder G100 is inserted into the receiving part C100 of the cleaning sheet B100 through the first opening C111. It is to be noted here that the first bonded parts D101 define the first space region C201 so that the first opening C111 is formed wide in the direction of the second axis A100x. Therefore, the user can easily insert the tip G120 into the first opening C111.

When the user moves the first holder G100 in the insertion direction A110y, the tip-side projection G151 gets into contact with the first insertion-side region D310 of the first bonded part D101. At this time, through the first insertion-side region D310 formed at the above-described insertion angle D305, the user can smoothly insert the long part G110 of the first holder G100 into the receiving part C100 without large resistance.

The long part G110 is deformed inward (toward the sixth bonded part D106) through the first insertion-side region D310 having the insertion angle D305. The first bonded parts D101 and the second bonded parts D102 define the first space region C201 and the second space region C202, respectively. The second space region C202 is configured to have a smaller width than the first space region C201 in the direction of the second axis A100x. The long part G110 is moved from the first space region C201 to the second space region C202 by the user while being kept in the deformed state. Therefore, when the tip-side projection G151 of the long part G110 reaches the second space region C202 and passes through the second space region C202, the user can smoothly move the long part G110 without large resistance. Therefore, the first insertion-side region D310 of the first bonded part D101 can be said to be a guide part E100 for guiding the holder G100 from the first space region C201 to the second space region C202.

The long part G110 is moved through the second space region C202 by the user while being kept in the deformed state. Although the fifth bonded part D105 is formed in the second space region C202, the fifth bonded part D105 forming the high rigidity part C400 as described above prevents the receiving part C100 from largely deforming when the tip-side projection G151 passes over the second bonded part D102.

The long part G110 is further moved by the user and the tip-side projection G151 reaches the second opening-side region C112a through the first opening-side region C111a. At this time, the base-side projection G152 passes over the first and second bonded parts D101, D102 in the first opening-side region C111a. When the base-side projection G152 passes over the first and second bonded parts D101, D102, the guide part E100 and the high rigidity part C400 function in the same manner as in the above-described case of the tip-side projection G151.

FIG. 19 shows the state that insertion of the long part G110 into the receiving part C100 is completed. In this state, the tip-side projection G151 is received in the first receiving region C310 of the second opening-side region C112a. The base-side projection G152 is received in the first receiving region C310 of the first opening-side region C111a.

In this state, the user performs a cleaning operation with the cleaning tool. During cleaning operation, the positional relation between the cleaning sheet B100 and the long part G110 may be changed from that at the beginning due to friction between the cleaning sheet B100 and an object to be cleaned. Specifically, the holder G100 may tend to further move in the insertion direction A110y. In this case, the tip-side projection G151 gets into contact with the second removal-side region D420 of the second bonded part D102 in the second opening-side region C112a. At this time, the tip-side projection G151 is reliably brought into contact with the second bonded part D102 since the second bonded parts D102 define the second space region C202. The second removal-side region D420 is configured to have the removal angle D405 such that the tip-side projection G151 cannot easily pass over the second bonded part D102 in the second opening-side region C112a. Thus, the holder G100 is prevented from further moving in the insertion direction A110y. In other words, it can be said that the removal-side region D400 in the second opening-side region C112a forms a preventing part F100 for preventing the holder G100 inserted from the first opening C111 from being further inserted.

On the other hand, the holder G100 may tend to move in the removal direction A120y. In this case, the base-side projection G152 gets into contact with the second removal-side region D420 of the second bonded part D102 in the first opening-side region C111a. At this time, since the second bonded parts D102 define the second space region C202, the base-side projection G152 is reliably brought into contact with the second bonded part D102. The second removal-side region D420 is configured to have the removal angle D405 such that the base-side projection G152 cannot easily pass over the second bonded part D102 in the first opening-side region C111a. Thus, the holder G100 is prevented from moving in the removal direction A120y.

FIG. 20 shows the state that insertion of the second holder G200 into the receiving part C100 is completed. In this state, the tip-side projection G251 is received in the second receiving region C320 of the second opening-side region C112a. The base-side projection G252 is received in the first receiving region C310 of the first opening-side region C111a.

The functioning of the guide part E100 at the time of insertion of the long part G210 into the receiving part C100 and the functioning of the preventing part F100 during cleaning operation are respectively similar to those described above with reference to FIGS. 18 and 19 and will not be further elaborated here. Further, when the second holder G200 is attached to the cleaning sheet B100, the preventing part F100 is formed in both the first removal-side region D410 of the first bonded part D101 and the second removal-side region D420 of the second bonded part D102. Specifically, when the holder G200 tends to further move in the insertion direction A110y during cleaning operation, the tip-side projection G251 gets into contact with the first removal-side region D410 (the preventing part F100). Further, as described above, the second extending part G242 is curved to protrude outward in the direction of the second axis A100x. Therefore, when the holder G200 tends to further move in the insertion direction A110y, the curved part of the second extending part G242 gets into contact with the second removal-side region D420 (the preventing part F100). Thus, having the preventing part F100 formed in the first and second removal-side regions D410, D420, the second holder G200 is configured to be prevented from easily moving in the insertion direction A110y during cleaning operation.

Further, depending on the structure of the tip-side projection G251 or the second extending part G242 in the second holder G200, either one of the first removal-side region D410 and the second removal-side region D420 may function as the preventing part F100.

(Correspondences Between the Features of the Embodiment and the Features of the Invention)

The cleaning sheet B100 and the holder G100 are example embodiments that correspond to the “cleaning sheet” and the “holder”, respectively, according to this invention. The first holder G100 and the second holder G200 are example embodiments that correspond to the “first holder” and the “second holder”, respectively, according to this invention. The sheet-like member B110, the bonded part D100 and the receiving part C100 are example embodiments that correspond to the “sheet-like member”, the “bonded part” and the “receiving part”, respectively, according to this invention. The insertion direction A110y, the removal direction A120y and the first axis A100y are example embodiments that correspond to the “insertion direction”, the “removal direction” and the “insertion axis”, respectively, according to this invention. The opening C110 and the receiving space C200 are example embodiments that correspond to the “opening” and the “receiving space”, respectively, according to this invention. The separation bonded part D106 is an example embodiment that corresponds to the “separation bonded part” according to this invention. The first opening C111, the second opening C112, the first opening-side region C111a and the second opening-side region C112a are example embodiments that correspond to the “first opening”, the “second opening”, the “first opening-side region”, the “second opening-side region”, respectively, according to this invention. The first receiving region C310 and the second receiving region C320 are example embodiments that correspond to the “first receiving region” and the “second receiving region”, respectively, according to this invention. The first long part G110 and the first projection G150 are example embodiments that correspond to the “first long part” and the “first projection”, respectively, according to this invention. The second long part G2210 and the second projection G250 are example embodiments that correspond to the “second long part” and the “second projection”, respectively, according to this invention. The first receiving region formation part D110 and the second receiving region formation part D210 are example embodiments that correspond to the “first receiving region formation part” and the “second receiving region formation part”, respectively, according to this invention. The first front end bonded part D111 and the first rear end bonded part D112 are example embodiments that correspond to the “first front end bonded part” and the “first rear end bonded part”, respectively, according to this invention. The second front end bonded part D211 and the second rear end bonded part D212 are example embodiments that correspond to the “second front end bonded part” and the “second rear end bonded part”, respectively, according to this invention.

DESCRIPTION OF THE NUMERALS

A100y first axis

A110y insertion direction

A120y removal direction

A100x second axis

B100 cleaning sheet

B110 sheet-like member

B111 first sheet

B112 second sheet

B113 third sheet

B200 fiber bundle

B300 strip

B310 cut

C100 receiving part

C110 opening

C111 first opening

C111a first opening-side region

C112 second opening

C112a second opening-side region

C200 receiving space

C201 first space region

C202 second space region

C300 projection receiving region

C310 first receiving region

C311 front end

C312 rear end

C320 second receiving region

C321 front end

C322 rear end

C400 high rigidity part

D100 bonded part

D101 first bonded part

D102 second bonded part

D103 third bonded part

D104 fourth bonded part

D105 fifth bonded part

D106 sixth bonded part (separation bonded part)

D110 first receiving region formation part

D111 first front end bonded part

D112 first rear end bonded part

D210 second receiving region formation part

D211 second front end bonded part

D212 second rear end bonded part

D300 insertion-side region

D301 insertion starting point

D302 insertion end point

D303 first insertion line D303

D304 second insertion line

D305 insertion angle

D310 first insertion-side region

D320 second insertion-side region

D330 third insertion-side region

D400 removal-side region

D401 removal starting point

D402 removal end point

D403 first removal line

D404 second removal line

D405 removal angle

D410 first removal-side region

D420 second removal-side region

D430 third removal-side region

E100 guide part

F100 preventing part

G100 holder (first holder)

G110 long part

G120 tip

G130 base

G140 extending part

G150 projection (first projection)

G151 tip-side projection

G152 base-side projection

G160 handle part

G161 front end

G162 rear end

G163 grip

G200 second holder

G210 long part

G220 tip

G230 base

G240 extending part

G241 first extending part

G242 second extending part

G250 projection (first projection)

G251 tip-side projection

G252 base-side projection

G260 handle part

G261 front end

G262 rear end

G263 grip

CLEANING SHEET AND CLEANING INSTRUMENT PACKAGE

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CPC

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