WATER TISSUE

Abstract

There is provided a cap-type water tissue capable of pulling out and cutting as long water tissue as a necessary length. The cap-type water tissue includes a water tissue accommodating section that has multiple cut-off lines, and stores a water tissue, and a water tissue opening and closing section that is attached to the top of the water tissue accommodating section, and cuts as long water tissue pulled out of the water tissue accommodating section as a necessary length along the cut-off line of the water tissue. The water tissue opening and closing section may include an installation plate that is attached to the top of the water tissue accommodating section, and is provided with a through hole formed in the central portion thereof, an auxiliary cap that covers the through hole of the installation plate, and is provided with a cutting portion formed in the central portion thereof so as to cut the water tissue, and a main cap that is connected to one side of the installation plate so as to be rotated, and opens and closes the top of the installation plate.

Description

FIELD AND BACKGROUND OF THE INVENTION

Field of the Invention

The present invention relates to a water tissue, and more particularly, to a cap-type or a lid-type water tissue capable of pulling and cutting as long water tissue as a necessary length.

Description of the Related Art

In general, a water tissue is manufactured by adding water to a tissue obtained by thinly weaving synthetic fiber, viscose fiber, cotton fiber, cellulose fiber, and natural vegetable fiber and sterilizing the tissue. Initially, the water tissue has been frequently used to wipe the hand and face of a user and the skin of an infant. However, in recent years, the water tissue trends to be developed as a functional water tissue for performing a specific purpose such as cosmetic removal or nail manicure removal.

Accordingly, various patents of a water tissue with an improved case, cover, lid or opening and closing section have been continuously filed. As one example, Korean Patent Publication No. 10-2013-0016886 describes a tissue pack. According to this tissue pack, it is possible to easily pull out a tissue as in an opening and closing cover which is formed through injection-molding while manufacturing cost is reduced by forming the entire structure of an opening and closing section of a pull-out hole in a film type. Further, it is possible to achieve high sealing performance while a region near the pull-out hole is not smeared with an adhesive, and it is possible to solve the inconvenience that apart of tissue sticking out of the pull-out hole is pushed into the pull-out hole again after the tissue is pulled out. Furthermore, it is possible to minimize the tearing of the pull-out hole.

Korean Patent Publication No. 10-2013-0093380 describes a hand-held water tissue case capable of conveniently using a water tissue without concerning various germs including a mold and the side effect of preservatives or germicides.

Korean Patent Registration No. 10-1210942 describes a water-tissue-case cover provided with an air discharge device. This cover includes accommodation case provided below the cover, and an air opening and closing unit inserted into or extracted from a discharge hole formed in the accommodation case by being rotated through hinge-coupling with respect to the accommodation case. With such a simple structure, since air within the case can be discharged to the outside, it is possible to solve the problem that a water tissue stored in the case is degenerated or germs proliferate on the water tissue even though the water tissue is used for a long time. As a result, it is possible to store and use the water tissue for a long time.

Korean Patent Publication No. 10-2014-0085080 describes a water tissue case including a liquid substance pack. This case separately stores liquid substances such as water, a cleansing liquid, a washing liquid, a skin tonic liquid, and medical ingredients and a tissue, and is carried. Before the tissue is used, the liquid substances are supplied to the tissue, and the liquid substance can be stored for a long time without the degeneration of the liquid substance even though preservatives are not added to the liquid substances.

Korean Patent Publication No. 10-2015-0070644 describes a water tissue case capable of conveniently using a water tissue by preventing the next water tissue from coming out with the water tissue when the water tissue is pulled out of case.

However, most of the water tissues of the related art described above is manufactured in such a manner that a roll of water tissue fabric having a width 20 to 30 cm is cut in a standard of 15 to 20 cm, the cut sheets of the water tissue are folded in a folding manner, and then the water tissue sheets are stored by layering the water tissue sheets layered on top of one another so as to be connected to each other or by sequentially layering the water tissue sheets. In this case, in a case where the user uses the water tissue by pulling out the water tissue, it is necessary to pull out the previously cut sheet of the water tissue irrespective of the size of the water tissue. That is, when the user uses the water tissue of the related art, it is necessary to pull out as necessary number of water tissue sheets obtained by cutting the water tissue fabric having a width of 15 to 20 cm in a size of 15 to 20 cm irrespective of the purpose of use.

However, in a real life, a small number of water tissue sheets may be required in many cases. In the related art, it is necessary to use the water tissue by pulling out the previously set sheets of the water tissue, and it is necessary to use the water tissue by repeatedly pulling out the previously set sheets of the water tissue several times when a large number of water tissue sheets are required.

In order to solve the aforementioned problems, a roll of water tissue product has been launched. However, since the roll of water tissue needs to necessarily a standardized synthetic resin or wooden case having a predetermined size, the roll of water tissue has been frequently used in fixed places such as homes, offices or business establishments, and tends to belong to a product line that has gradually vanished.

Korean Patent Publication No. 10-2013-0016886 (Feb. 19, 2013)

Korean Patent Publication No. 10-2013-0093380 (Aug. 22, 2013)

Korean Patent Registration No. 10-1210942 (Dec. 12, 2012)

Korean Patent Publication No. 10-2014-0085080 (Jul. 7, 2014)

Korean Patent Publication No. 10-2015-0070644 (Jun. 25, 2015)

SUMMARY OF THE INVENTION

A technical object of the present invention is to provide a water tissue capable of using a water tissue that is integrally stored without being cut into tissue sheets by pulling and cutting as long water tissue as a necessary length by a user.

A technical object of the present invention is also to provide a water tissue capable of being conveniently assembled and manipulated by connecting a main cap to one side of an installation plate so as to be rotated and connecting an auxiliary cap to the other side of the installation plate.

A technical object of the present invention is also to provide a water tissue capable of excellently sealing a water tissue by fastening the installation plate to the main cap through the insertion of the first partition wall of the installation plate between the second and third partition walls of the main cap.

The technical objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned can be clearly understood by those skilled in the art based on the following description.

In order to achieve the technical objects, according to an embodiment of the present invention, there is provided a cap-type water tissue including: a water tissue accommodating section that has multiple cut-off lines, and stores a water tissue which is integrally connected; and a water tissue opening and closing section that is attached to the top of the water tissue accommodating section, and cuts as long water tissue pulled out of the water tissue accommodating section as a necessary length along the cut-off line of the water tissue. The water tissue opening and closing section includes an installation plate that is attached to the top of the water tissue accommodating section, and is provided with a through hole formed in the central portion thereof, an auxiliary cap that covers the through hole of the installation plate, and is provided with a cutting portion formed in the central portion thereof so as to cut the water tissue, and a main cap that is connected to one side of the installation plate so as to be rotated, and opens and closes the top of the installation plate.

Here, the auxiliary cap may be integrally formed by being fixed to the through hole of the installation plate. In some cases, the auxiliary cap may be connected to one side of the installation plate so as to be rotated, and may be formed as a separable type that opens and closes the through hole of the installation plate.

The auxiliary cap may includes a cover portion that covers the through hole of the installation plate, a connection portion that extends from one side of the cover portion and is connected to one side of the installation plate, and a fastening portion that extends from the other side of the cover portion and is fastened to the installation plate.

According to the present invention, there is provided a lid-type water tissue including: a water tissue accommodating section that has multiple cut-off lines, and stores a water tissue which is integrally connected; and a water tissue opening and closing section that is attached to the top of the water tissue accommodating section, and cuts as long water tissue pulled out of the water tissue accommodating section as a necessary length along the cut-off line of the water tissue. The water tissue opening and closing section includes a thin-film shaped cover that is provided with a cutting portion formed in the central portion thereof so as to cut the water tissue, and a sticker that selectively opens and closes an upper end of the cover.

According to the water tissue of the present invention, since it is possible to use the water tissue by pulling out and cutting as long water tissue that is integrally stored without being cut into tissue sheets as a necessary length, the user can conveniently use the water tissue by adjusting the length of the pulled water tissue so as to be appropriate for the purpose of use, and can use the water tissue for a long time by saving the water tissue.

According to the present invention, the main cap is connected to one side of the installation plate so as to be rotated and the auxiliary cap is connected to the installation plate so as to be rotated, so that the water tissue is conveniently assembled and manipulated.

According to the present invention, the installation plate and the main cap are fastened by inserting the first partition wall of the installation plate between the second and third partition walls of the main cap, and thus, the moisture of the water tissue is excellently sealed. Accordingly, the moisture of the water tissue is maintained for a long time, so that it is possible to use the water tissue for a long time.

The effects of the present invention are not limited to the above-mentioned effects, and other effects that are not mentioned can be clearly understood by those skilled in the art based on the following description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

FIGS. 1A, 1B and 1C are perspective view showing the entire external appearance of a cap-type water tissue according to an embodiment of the present;

FIGS. 2A and 2B are sectional views showing an operation of pulling a water tissue in a cap-type water tissue according to a preferred embodiment of the present invention;

FIGS. 3A and 3B are perspective view showing a state in which the cap-type water tissue according to the preferred embodiment of the present invention is used;

FIGS. 4A and 4B are perspective views showing the water tissue opening and closing section closed by the main cap;

FIGS. 5A, 5B and 5C are diagrams showing a water tissue opening and closing section according to a first embodiment of the present invention;

FIGS. 6A, 6B and 6C are diagrams showing a water tissue opening and closing section according to a second embodiment of the present invention;

FIGS. 7A, 7B and 7C are diagrams showing a water tissue opening and closing section according to a third embodiment of the present invention;

FIG. 8 is a diagram showing a fastening protrusion of the installation plate;

FIG. 9 is a diagram showing a state in which the auxiliary cap and the installation plate are fastened;

FIG. 10 is a diagram showing a state in which the auxiliary cap and the installation plate are unfastened;

FIGS. 11A and 11B are diagrams that specifically show the fastening portion of the main cap;

FIGS. 12A and 12B are diagrams that specifically show the fastening portion of the auxiliary cap;

FIGS. 13A, 13B and 13C are plan view showing the shape of the cutting portion of the auxiliary cap;

FIGS. 14A, 14B and 14C are perspective views showing the shape of the cutting portion of the auxiliary cap;

FIGS. 15A, 15B, and 15C are perspective views showing the entire external appearance of a lid-type water tissue according to another embodiment of the present invention; and

FIGS. 16A and 16B are perspective views showing the water tissue opening and closing section of the lid-type water tissue according to the another embodiment of the present invention.

DESCRIPTION OF SPECIFIC EMBODIMENTS OF THE INVENTION

Hereinafter, the present invention will be described in more detail with reference to the drawings.

The suffix “module” or “portion” used for constituent elements disclosed in the following description is merely intended for easy description of the specification, and the “module” and “portion” may be interchangeably used each other.

In addition, the embodiments of the present invention will now be described in detail with reference to the accompanying drawings and the contents described in the accompanying drawings, but the present invention is not limited or restricted by the embodiments.

Although the terms used in the present specifications are selected from generally used terms in consideration with their functions in the present invention, the terms can be modified depending on the intention of a person skilled in the art, practices, or the advent of new technology. In a special case, the terms mentioned in the description of the present specifications may be arbitrarily selected by the applicant at his or her discretion, the detailed meanings of which are described in relevant parts of the description herein. Accordingly, the terms used in the present specifications should be understood not simply by the actual terms used but by the meaning lying within and the description disclosed herein.

FIGS. 1A, 1B and 1C are perspective view showing the entire external appearance of a cap-type water tissue according to an embodiment of the present, FIG. 1A shows a state in which a main cap of the cap-type water tissue is closed, FIG. 1B shows a state in which the main cap of the cap-type water tissue is opened, and FIG. 1C shows a state in which the main cap and an auxiliary cap are opened.

As shown in FIGS. 1A, 1B, and 1C, the cap-type water tissue of the present invention may include a water-tissue accommodating section 2000, and a water-tissue opening and closing section 3000.

Here, the water-tissue accommodating section 2000 can accommodate a water tissue having multiple cut-off lines, and can accommodate an integrated water tissue that is continuously connected without being cut.

In this case, the water-tissue accommodating section 2000 may be arbitrarily selected from a water-tissue pack, a water-tissue plastic pack, a water-tissue pouch, and a water-tissue case, but the material and shape thereof are not particularly limited.

As shown in FIG. 1C, a pull-out hole 2200 for allowing a user to pull out the water tissue may be formed in the central top portion of the water-tissue accommodating section 2000, and a sticker 2100 for preventing water evaporation may typically stick onto the pull-out hole 2200 at the time of releasing the product.

The water-tissue opening and closing section 3000 may be attached to the top of the water-tissue accommodating section 2000, and as long water tissue pulled out of the water-tissue accommodating section 2000 as a necessary length may be cut off along the cut-off line of the water tissue.

As one example, the water-tissue opening and closing section 3000 may include an installation plate 3100, an auxiliary cap 3200, and a main cap 3300.

Here, the installation plate 3100 may be attached to the top of the water-tissue accommodating section 2000, and may include a through hole 3110 formed in the central portion.

The auxiliary cap 3200 may cover the through hole 3110 of the installation plate 3100, and may include a cutting portion 3210 that cuts the water tissue in the central portion.

Here, the cutting portion 3210 may be formed in the central region of the installation plate 3100, and may be formed in an elliptical shape or a perfect circle.

The thickness of the central region of the installation plate 3100 in which the cutting portion 3210 is formed may be less than the thickness of the peripheral region of the installation plate 3100, and thus, the installation plate may have a stepped portion.

By doing this, it is possible to conveniently pull out the water tissue with ease by exerting tensile force when the user pulls out the water tissue.

The cutting portion 3210 may include a pull-out opening through which the water tissue is pulled out, and cutting lines which are formed near the pull-out opening and cut the water tissue along the cut-off line of the water tissue.

In this case, the pull-out opening may be formed in an elliptical shape or a perfect circle, the cutting lines may be formed so as to be bilaterally symmetric with respect to the pull-out opening, and a plurality of fine holes may be formed in a saw-toothed shape along the cutting lines.

The reason why the fine holes are formed is because the water tissue can be smoothly pulled out with less force and can be easily cut.

The pull-out opening of the cutting portion 3210 is formed in an elliptical shape or a perfect circle shape in which the diameter of an opening is large, and thus, the user can conveniently pull out the water tissue with ease.

It is possible to satisfy the user's aesthetic sense by applying a design to even the cutting line.

In some cases, the cutting portion 3210 may be formed in a specific pattern.

By doing this, it is possible to satisfy the user's aesthetic sense by applying various designs to the cutting line.

The cutting portion 3210 can be formed in various shapes such as a “−” shape, a “+” shape, a “X” shape, and a “H” shape, and the shape thereof is not particularly limited as long as the cutting line can cut off the water tissue along an arbitrary cut-off line 1200 in a state in which as long water tissue as a necessary length is pulled out.

The main cap 3300 is connected to one side of the installation plate 3100 so as to be rotated. The main cap can open and close the top of the installation plate 3100.

FIGS. 2A and 2B are sectional views showing an operation of pulling a water tissue in a cap-type water tissue according to a preferred embodiment of the present invention.

As shown in FIGS. 2A and 2B, the cap-type water tissue of the present invention may include a water tissue accommodating section 2000, and a water tissue opening and closing section 3000.

Here, the water tissue accommodating section 2000 may store a water tissue 1000 having multiple cut-off lines 1200.

The integrated water tissue 1000 that is continuously connected without being cut can be accommodated within the water tissue accommodating section 2000.

As shown in FIG. 2A, the integrated water tissue 1000 may be a water tissue in which water tissue fabric is folded so as to be vertically symmetric with each other in the longitudinal direction.

As another example, as shown in FIG. 2B, the integrated water-tissue 1000 may be a water tissue in which a third of one side of water tissue fabric in the longitudinal direction is folded toward top surface and a third of the other side is folded toward the bottom surface.

A plurality of cut-off lines 1200 is formed in the integrated water tissue 1000 at the same distance. Here, a cutting distance between the cut-off lines 1200 may be about 3 to 10 cm, but is not limited thereto.

As another example, the plurality of cut-off lines 1200 may be formed in the integrated water tissue 1000 at different distances.

For example, the cutting lines between the cut-off lines 1200 may be formed such that a first cut-off distance of about 5 cm and a second cut-off distance of about 10 cm are alternately repeated.

That is, the plurality of cut-off lines 1200 may be formed in the integrated water tissue 1000 so as to have multiple cutting distances.

The integrated water tissue 1000 may be accommodated within the water tissue accommodating section 2000 so as to be folded vertically to the bottom surface of the water tissue accommodating section 2000.

In some cases, the integrated water tissue 1000 may be accommodated within the water tissue accommodating section 2000 so as to be folded in parallel with the bottom surface of the water tissue accommodating section 2000.

The water tissue 1000 may be cut by the cutting portion 3210 of the auxiliary cap 3200 from the water tissue accommodating section 2000 through the through hole of the installation plate along the cut-off line 1200.

Here, the cutting portion 3210 is formed in the central region of the installation plate 3100, and may be formed in an elliptical shape or a perfect circle.

Thereafter, the thickness of the central region of the installation plate 3100 in which the cutting portion 3210 is formed is less than the thickness of the peripheral region of the installation plate 3100, and thus, the installation plate may have a stepped portion.

By doing this, it is possible to conveniently pull out the water tissue with ease by exerting tensile force when the user pulls out the water tissue.

The cutting portion 3210 may include a pull-out opening through which the water tissue is pulled out, and cutting lines which are formed near the pull-out opening and cut the water tissue along the cut-off line of the water tissue.

In this case, the pull-out opening may be formed in an elliptical shape or a perfect circle, the cutting lines may be formed so as to be bilaterally symmetric with respect to the pull-out opening, and a plurality of fine holes may be formed in a saw-toothed shape along the cutting lines.

The reason why the fine holes are formed is because the water tissue can be pulled out with less force and can be easily cut.

The pull-out opening of the cutting portion 3210 is formed in an elliptical shape or a perfect circle shape in which the diameter of an opening is large, and thus, the user can conveniently pull out the water tissue with ease.

It is possible to satisfy the user's aesthetic sense by applying a design to even the cutting line.

In some cases, the cutting portion 3210 may be formed in a specific pattern.

By doing this, it is possible to satisfy the user's aesthetic sense by applying various designs to the cutting line.

The cutting portion 3210 can be formed in various shapes such as a “−” shape, a “+” shape, a “X” shape, and a “H” shape, and the shape thereof is not particularly limited as long as the cutting line can cut off the water tissue along an arbitrary cut-off line 1200 in a state in which as long water tissue as a necessary length is pulled out.

FIGS. 3A and 3B are perspective view showing a state in which the cap-type water tissue according to the preferred embodiment of the present invention is used.

As shown in FIGS. 3A and 3B, when foreign substances 1400 fall down on the outside, a user 1300 opens the main cap of the water tissue opening and closing section, cuts the water tissue along the arbitrary cut-off line 1200 in a state in which as long water tissue 1000 as a necessary length is pulled out, and can wipe the foreign substances with the cut water tissue 1000.

Here, as shown in FIG. 3A, when there are a small amount of foreign substances 1400, it is possible to use the water tissue 1000 by cutting the water tissue short.

As shown in FIG. 3B, when there are a large amount of foreign substances 1400, it is possible to use the water tissue 1000 by cutting the water tissue long.

Accordingly, since the user 1300 can use the water tissue 1000 by cutting as long water tissue as a necessary length, it is possible to reduce the waste of the water tissue 1000, and it is possible to conveniently cut the water tissue.

FIGS. 4A and 4B are perspective views showing the water tissue opening and closing section closed by the main cap. FIG. 4A is a front view of the water tissue opening and closing section, and FIG. 4B is a rear view of the water tissue opening and closing section.

FIGS. 5A, 5B and 5C are diagrams showing a water tissue opening and closing section according to a first embodiment of the present invention, FIGS. 6A, 6B and 6C are diagrams showing a water tissue opening and closing section according to a second embodiment of the present invention, and FIGS. 7A, 7B and 7C are diagrams showing a water tissue opening and closing section according to a third embodiment of the present invention.

FIG. 8 is a diagram showing a fastening protrusion of the installation plate, FIG. 9 is a diagram showing a state in which the auxiliary cap and the installation plate are fastened, and FIG. 10 is a diagram showing a state in which the auxiliary cap and the installation plate are unfastened.

As shown in FIGS. 4A and 4B, the water-tissue opening and closing section 3000 may be attached to the top of the water-tissue accommodating section, and as long water tissue pulled out of the water-tissue accommodating section 2000 as a necessary length may be cut off along the cut-off line of the water tissue.

The water-tissue opening and closing section 3000 may include an installation plate 3100, an auxiliary cap 3200, and a main cap 3300.

As shown in FIGS. 5A, 5B and 5C, the installation plate 3100 may be attached to the top of the water-tissue accommodating section, and may include a through hole 3110 formed in the central portion.

The auxiliary cap 3200 may cover the through hole 3110 of the installation plate 3100, and may include a cutting portion 3210 that cuts the water tissue in the central portion.

Here, the cutting portion 3210 may be formed in a central region 3211 of the installation plate 3100, and may be formed in an elliptical shape or a perfect circle.

The thickness of the central region 3211 of the installation plate 3100 in which the cutting portion 3210 is formed may be less than the thickness of a peripheral region of the installation plate 3100, and thus, the installation plate may have a stepped portion.

By doing this, it is possible to conveniently pull out the water tissue with ease by exerting tensile force when the user pulls out the water tissue.

The cutting portion 3210 may include a pull-out opening 3212 through which the water tissue is pulled out, and cutting lines 3214 which are formed near the pull-out opening 3212 and cut the water tissue along the cut-off line of the water tissue.

In this case, the pull-out opening 3212 may be formed in an elliptical shape or a perfect circle, the cutting lines 3214 may be formed so as to be bilaterally symmetric with respect to the pull-out opening 3212, and a plurality of fine holes may be formed in a saw-toothed shape along the cutting lines 3214.

As shown in FIGS. 5A, 5B and 5C, the plurality of fine holes may be formed such that the diameters of the fine holes positioned outside are smaller than the diameters of the fine holes positioned inside.

Alternatively, as shown in FIGS. 6A, 6B and 6C, the plurality of fine holes may be formed in a saw-toothed shape in which the diameters of the fine holes positioned outside are the same as the diameters of the fine holes positioned inside.

Alternatively, as shown in FIGS. 7A, 7B and 7C, the plurality of fine holes may be formed in a specific pattern.

The reason why the fine holes are formed in this manner is because the water tissue can be pulled out with less force and can be easily cut.

The pull-out opening 3212 of the cutting portion 3210 is formed in an elliptical shape or a perfect circle shape in which the diameter of an opening is large, and thus, the user can conveniently pull out the water tissue with ease.

It is possible to satisfy the user's aesthetic sense by applying a design to even the cutting line 3214.

In some cases, the cutting portion 3210 may be formed in a specific pattern.

By doing this, it is possible to satisfy the user's aesthetic sense by applying various designs to the cutting line.

The cutting portion 3210 can be formed in various shapes such as a “−” shape, a “+” shape, a “X” shape, and a “H” shape, and the shape thereof is not particularly limited as long as the cutting line can cut off the water tissue along an arbitrary cut-off line 1200 in a state in which as long water tissue as a necessary length is pulled out.

The main cap 3300 is connected to one side of the installation plate 3100 so as to be rotated. The main cap can open and close the top of the installation plate 3100.

The installation plate 3100 may includes a first partition wall 3120 protruding toward a surface facing the main cap 3300.

The main cap 3300 may include a second partition wall 3320 and a third partition wall 3330 which protrude toward a surface facing the installation plate 3100.

Here, the first partition wall 3120 of the installation plate 3100 may be positioned between the periphery of the installation plate 3100 and the through hole 3110, and may be formed along the periphery of the through hole 3110.

The second partition wall 3320 of the main cap 3300 may be formed along the periphery of the main cap 3300, and the third partition wall 3330 of the main cap 3300 may be disposed so as to be separated from the second partition wall 3320 toward the inside of the main cap 3300 by a predetermined distance.

The reason why there is a predetermined distance between the second partition wall 3320 and the third partition wall 3330 of the main cap 3300 is because the first partition wall 3120 of the installation plate 3100 is positioned between the second partition wall 3320 and the third partition wall 3330 of the main cap 3300 when the main cap 3300 is closed.

Accordingly, in the present invention, the installation plate 3100 and the main cap 3300 are fastened by inserting the first partition wall 3120 of the installation plate 3100 between the second and third partition walls 3320 and 3330 of the main cap 3300, and thus, moisture of the water tissue is excellently sealed.

Accordingly, the moisture of the water tissue is maintained for a long time, so that it is possible to use the water tissue for a long time.

A partial region of the first partition wall 3120 of the installation plate 3100 may be opened.

The reason why the partial region of the first partition wall 3120 is opened is because a connection portion 3230 of the auxiliary cap 3200 is disposed in the opened region of the first partition wall 3120 when the auxiliary cap 3200 and the installation plate 3100 are fastened.

Accordingly, the width of the opened region of the first partition wall 3120 may be greater than the width of the connection portion 3230 of the auxiliary cap 3200.

In contrast, the entire region of the second and third partition walls 3320 and 3330 of the main cap 3300 may be closed.

The first partition wall 3120 of the installation plate 3100 may be positioned between the second partition wall 3320 and the third partition wall 3330 when the main cap 3300 closes the top of the installation plate 3100.

Accordingly, the height of the first partition wall 3120 may be less than the height of the second and third partition walls 3320 and 3330.

A first groove 3322 is formed in a partial region of the second partition wall 3320 of the main cap 3300, and a second groove 3332 may be formed in a region of the third partition wall 3330 corresponding to the first groove 3322 of the second partition wall 3320.

Here, the depth of the first groove 3322 of the second partition wall 3320 may be greater than the depth of the second groove 3332 of the third partition wall 3330.

In some cases, the depth of the first groove 3322 of the second partition wall 3320 and the depth of the second groove 3332 of the third partition wall 3330 may be equal to each other.

The reason is because the first groove 3322 of the second partition wall 3320 and the second groove 3332 of the third partition wall 3330 are positioned in the opened region of the first partition wall 3120 of the installation plate 3100 and are positioned in the connection portion 3230 of the auxiliary cap 3200 when the main cap 3300 is closed.

Accordingly, the width of the first groove 3322 of the second partition wall 3320 and the second groove 3332 of the third partition wall 3330 may be greater than the width of the connection portion 3230 of the auxiliary cap 3200.

A hook protrusion 3334 that is fastened to a protrusion bar 3232 of the installation plate 3100 may be formed at the second groove 3332 of the third partition wall 3330 of the main cap 3300.

A handle 3310 for rotating the main cap 3300 may be formed at the first groove 3322 of the second partition wall 3320 of the main cap 3300 so as to open and close the top of the installation plate 3100.

At least one fastening protrusion 3130 that is fastened to the auxiliary cap 3200 may be formed between the first partition wall 3120 and the through hole 3110 of the installation plate 3100.

Here, as shown in FIG. 8, the fastening protrusion 3130 includes a body 3134 fixed to the installation plate 3100, and a head 3132 which is disposed on the top of the body 3134 and is coupled to a fastening hole 3244 of the auxiliary cap 3200.

In this case, the diameter of the head 3132 may be greater than the diameter of the body 3134.

The protrusion bar 3232 protruding toward the main cap 3300 may be formed in the opened region of the first partition wall 3120 of the installation plate 3100.

Here, a hook engagement portion 3234 that is fastened to the main cap 3300 may be formed at the protrusion bar 3232.

The hook engagement portion 3234 may be formed on the front surface of the protrusion bar 3232 facing the outside of the installation plate 3100.

The protrusion bar 3232 may be formed so as to be arranged on the same straight line as the first partition wall 3120.

Here, the height of the protrusion bar 3232 may be equal to the height of the first partition wall 3120.

Accordingly, when the main cap 3300 is closed, the hook protrusion 3334 of the third partition wall 3330 of the main cap 3300 may be fastened to the hook engagement portion 3234 of the protrusion bar 3232 of the installation plate 3100.

When the main cap 3300 is closed, the protrusion bar 3232 of the installation plate 3100 may be positioned so as to be closer to the inside from the third partition wall 3330 of the main cap 3300.

The auxiliary cap 3200 may be rotated by being connected to one side of the installation plate 3100, and may be formed as a separable type so as to open and close the through hole 3110 of the installation plate 3100.

In some cases, the auxiliary cap 3200 may be fixed to the through hole 3110 of the installation plate 3100, and may be integrally formed.

The auxiliary cap 3200 may include a cover portion 3220 that covers the through hole 3110 of the installation plate 3100, the connection portion 3230 that extends from one side of the cover portion 3220 and is connected to one side of the installation plate 3100, and a fastening portion 3240 that extends from the other side of the cover portion 3220 and is fastened to the installation plate 3100.

Here, the cutting portion 3210 that cuts the water tissue may be formed in the central region of the cover portion 3220.

A via hole 3236 through which the protrusion bar 3232 of the installation plate 3100 penetrates may be formed in the connection portion 3230 of the auxiliary cap 3200.

At least one fastening hole 3244 that is fastened to the installation plate 3100 may be formed in the fastening portion 3240 of the auxiliary cap 3200.

Here, the fastening holes 3244 of the auxiliary cap 3200 may be disposed so as to correspond to the fastening protrusions 3130 of the installation plate 3100.

Accordingly, the number of fastening holes 3244 of the auxiliary cap 3200 and the number of fastening protrusions 3130 of the installation plate 3100 may be equal to each other.

A handle 3242 for rotating the auxiliary cap 3200 may be formed at the fastening portion 3240 of the auxiliary cap 3200 so as to open and close the through hole 3110 of the installation plate 3100.

Here, the handle 3242 may be positioned above the auxiliary cap 3200 between the fastening holes 3244, and may be disposed on a surface opposite to the surface facing the installation plate 3100.

Meanwhile, as shown in FIGS. 9 and 10, the main cap may be connected to one side of the installation plate, and the auxiliary cap may be connected to the other sided of the installation plate.

Here, since the auxiliary cap can be connected to the installation plate so as to be rotated by a first hinge 3236, the auxiliary cap can open and close the through hole of the installation plate.

Since the main cap can be connected to the installation plate so as to be rotated by a second hinge 3340, the main cap can open and close the cutting portion of the auxiliary cap and the through hole of the installation plate.

As one example, the second hinge 3340 of the main cap may include a plurality of edge connection hinges 3342, and central connection hinges 3344 positioned between the edge connection hinges 3342.

Here, the central connection hinges 3344 may connect the central region on one side of the main cap to the central region on one side of the installation plate, and the edge connection hinges 3342 may connect the peripheral region on one side of the main cap to the peripheral region on one side of the installation plate.

When the side surface of the main cap has a round shape, the length of the edge connection hinge 3342 may be greater than the length of the central connection hinge 3344.

The protrusion bar 3232 may be formed on the surface of the installation plate facing the main cap.

In this case, the hook engagement portion 3234 that is fastened to the main cap may be formed at the protrusion bar 3232.

As one example, the hook engagement portion 3234 may be formed on the front surface of the protrusion bar 3232 facing toward the outside of the installation plate.

FIGS. 11A and 11B are diagrams that specifically show the fastening portion of the main cap.

As shown in FIGS. 11A and 11B, the main cap 3300 may include the second partition wall 3320 and the third partition wall 3330 which protrude toward the surface facing the installation plate.

The third partition wall 3330 of the main cap 3300 may be disposed so as to be separated from the second partition wall 3320 toward the inside of the main cap 3300 by the predetermined distance.

The reason why there is the predetermined distance between the second partition wall 3320 and the third partition wall 3330 of the main cap is because the first partition wall of the installation plate is positioned between the second partition wall 3320 and the third partition wall 3330 of the main cap when the main cap is closed.

Accordingly, the installation plate and the main cap are fastened by inserting the first partition wall of the installation plate between the second and third partition walls 3320 and 3330 of the main cap, and thus, moisture of the water tissue is excellently sealed. Accordingly, the moisture of the water tissue is maintained for a long time, so that it is possible to use the water tissue for a long time.

The first groove 3322 is formed in the partial region of the second partition wall 3320 of the main cap, and the second groove 3332 may be formed in the region of the third partition wall 3330 corresponding to the first groove 3322 of the second partition wall 3320.

Here, the depth of the first groove 3322 of the second partition wall 3320 may be greater than the depth of the second groove 3332 of the third partition wall 3330.

In some cases, the depth of the first groove 3322 of the second partition wall 3320 and the depth of the second groove 3332 of the third partition wall 3330 may be equal to each other.

The hook protrusion 3334 that is fastened to the hook engagement portion 3234 of the protrusion bar 3232 of the auxiliary cap may be formed at the second groove 3332 of the third partition wall 3330 of the main cap.

Accordingly, when the main cap is closed, the hook protrusion 3334 of the third partition wall 3330 of the main cap may be fastened to the hook engagement portion 3234 of the protrusion bar 3232 of the auxiliary cap.

When the main cap is closed, the protrusion bar 3232 of the auxiliary cap may be positioned on the inside of the third partition wall 3330 of the main cap.

FIGS. 12A and 12B are diagrams that specifically show the fastening portion of the auxiliary cap.

As shown in FIGS. 12A and 12B, the auxiliary cap 3200 may include the cover portion 3220 that covers the through hole of the installation plate, the connection portion 3230 that extends from one side of the cover portion 3220 and is connected to one side of the installation plate, and the fastening portion 3240 that extends from the other side of the cover portion 3220 and is fastened to the installation plate.

Here, the cutting portion 3210 that cuts the water tissue may be formed in the central region of the cover portion 3220.

The protrusion bar protruding toward the surface opposite to the surface facing the installation plate may be formed at the connection portion 3230.

At least one fastening hole 3244 that is fastened to the installation plate may be formed in the fastening portion 3240 of the auxiliary cap.

Here, the fastening holes 3244 of the auxiliary cap may be arranged so as to correspond to the fastening protrusions 3130 of the installation plate.

Accordingly, the number of fastening holes 3244 of the auxiliary cap and the number of fastening protrusions 3130 of the installation plate may be equal to each other.

The handle 3242 for rotating the auxiliary cap may be formed at the fastening portion 3240 of the auxiliary cap so as to open and close the through hole 3110 of the installation plate.

Here, the handle 3242 may be positioned above the auxiliary cap between the fastening holes 3244, and may be disposed on the surface opposite to the surface facing the installation plate.

Therefore, in the cap-type water tissue according to the present invention, since it is possible to use the water tissue by pulling out and cutting as long water tissue that is integrally stored without being cut into tissue sheets as a necessary length, the user can conveniently use the water tissue by adjusting the length of the pulled water tissue so as to be appropriate for the purpose of use, and can use the water tissue for a long time by saving the water tissue.

According to the present invention, the main cap is connected to one side of the installation plate so as to be rotated and the auxiliary cap is connected to the installation plate so as to be rotated, so that the water tissue is conveniently assembled and manipulated.

According to the present invention, the installation plate and the main cap are fastened by inserting the first partition wall of the installation plate between the second and third partition walls of the main cap, and thus, the moisture of the water tissue is excellently sealed. Accordingly, the moisture of the water tissue is maintained for a long time, so that it is possible to use the water tissue for a long time.

FIGS. 13A, 13B, and 13C are plan view showing the shape of the cutting portion of the auxiliary cap, and FIGS. 14A, 14B and 14C are perspective views showing the shape of the cutting portion of the auxiliary cap.

As shown in FIGS. 13A, 13B and 13C, the auxiliary cap 3200 may include the cover portion 3220 that covers the through hole of the installation plate.

The cutting portion 3210 that cuts the water tissue may be formed in the central region of the cover portion 3220.

Here, the cutting portion 3210 may be formed in the central region 3211 of the cover portion 3220, and may be formed in an elliptical shape or a perfect circle.

The thickness of the central region 3211 of the cover portion 3220 in which the cutting portion 3210 is formed may be less than the thickness of the peripheral region of the cover portion 3220, and thus, the cover portion may have a stepped portion.

By doing this, it is possible to conveniently pull out the water tissue with ease by exerting tensile force when the user pulls out the water tissue.

The cutting portion 3210 may include the pull-out opening 3212 through which the water tissue is pulled out, and the cutting lines 3214 which are formed near the pull-out opening 3212 and cut the water tissue along the cut-off line of the water tissue.

In this case, the pull-out opening 3212 may be formed in an elliptical shape or a perfect circle, the cutting lines 3214 may be formed so as to be bilaterally symmetric with respect to the pull-out opening 3212, and the plurality of fine holes may be formed in a saw-toothed shape along the cutting lines 3214.

As shown in FIG. 13A, the plurality of fine holes may be formed such that the diameters of the fine holes positioned outside are smaller than the diameters of the fine holes positioned inside.

Alternatively, as shown in FIG. 13B, the plurality of fine holes may be formed in a saw-toothed shape in which the diameters of the fine holes positioned outside are the same as the diameters of the fine holes positioned inside.

Alternatively, as shown in FIG. 13C, the plurality of fine holes may be formed in a specific pattern.

The reason why the fine holes are formed in this manner is because the water tissue can be smoothly pulled out with less force and can be easily cut.

The pull-out opening 3212 of the cutting portion 3210 is formed in an elliptical shape or a perfect circle shape in which the diameter of an opening is large, and thus, the user can conveniently pull out the water tissue with ease.

It is possible to satisfy the user's aesthetic sense by applying a design to even the cutting line 3214.

In some cases, the cutting portion 3210 may be formed in a specific pattern.

By doing this, it is possible to satisfy the user's aesthetic sense by applying various designs to the cutting line.

The cutting portion 3210 can be formed in various shapes such as a “−” shape, a “+” shape, a “X” shape, and a “H” shape, and the shape thereof is not particularly limited as long as the cutting line can cut off the water tissue along an arbitrary cut-off line 1200 in a state in which as long water tissue as a necessary length is pulled out.

As one example, the cutting portion 3210 may be formed in a “−” shape in which two cutting lines are formed so as to be symmetric with each other in the east and west directions of the pull-out opening, and the cutting lines 3210 may be formed in a “+” shape in which four cutting lines are formed so as to be symmetric with each other in the east, west, south and north directions of the pull-out opening.

In some cases, the cutting portion 3210 may be formed in a “X” shape in which four cutting lines are formed so as to be symmetric in the diagonal direction of the pull-out opening, and the cutting portion 3210 may be formed in a “I” shape in which two cutting lines are formed so as to be symmetric in the south and north directions of the pull-out opening.

Alternatively, the cutting portion 3210 may be formed in an “H” shape in which two cutting lines are formed so as to be bilaterally symmetric with respect to the pull-out opening.

In this manner, the cutting portion 3210 may be formed in various shapes.

FIGS. 15A, 15B and 15C are perspective views showing the entire external appearance of a lid-type water tissue according to another embodiment of the present invention. FIG. 15A shows a state in which a sticker of the lid-type water tissue is closed, FIG. 15B shows a state in which the sticker of the lid-type water tissue is opened, and FIG. 15C shows a state in which the water tissue is pulled out.

As shown in FIGS. 15A, 15B and 15C, the lid-type water tissue of the present invention may include a water tissue accommodating section 2000, and a water tissue opening and closing section 3000.

Here, the water-tissue accommodating section 2000 can accommodate a water tissue having multiple cut-off lines, and can accommodate an integrated water tissue that is continuously connected without being cut.

In this case, the water-tissue accommodating section 2000 may be arbitrarily selected from a water-tissue pack, a water-tissue plastic pack, a water-tissue pouch, and a water-tissue case, but the material and shape thereof are not particularly limited.

The water-tissue opening and closing section 3000 may be attached to the top of the water-tissue accommodating section 2000, and as long water tissue pulled out of the water-tissue accommodating section 2000 as a necessary length may be cut off along the cut-off line of the water tissue.

As one example, the water-tissue opening and closing section 3000 may include a thin-film shaped cover (lid) 3200 that is provided with a cutting portion 3210 which is formed in the central portion to cut the water tissue, and a sticker 3300 that selectively opens and closes the upper end of the cover 3200.

Here, the cutting portion 3210 may be formed in the central region of the water tissue accommodating section 2000, and may be formed in an elliptical shape or a perfect circle.

The cutting portion 3210 may include a pull-out opening through which the water tissue is pulled out, and cutting lines which are formed near the pull-out opening and cut the water tissue along the cut-off line of the water tissue.

In this case, the pull-out opening may be formed in an elliptical shape or a perfect circle, the cutting lines may be formed so as to be bilaterally symmetric with respect to the pull-out opening, and a plurality of fine holes may be formed in a saw-toothed shape along the cutting lines.

The reason why the fine holes are formed is because the water tissue can be smoothly pulled out with less force and can be easily cut. The pull-out opening of the cutting portion 3210 is formed in an elliptical shape or a perfect circle shape in which the diameter of an opening is large, and thus, the user can conveniently pull out the water tissue with ease.

The cutting portion 3210 can be formed in various shapes such as a “−” shape, a “+” shape, a “X” shape, and a “H” shape, and the shape thereof is not particularly limited as long as the cutting line can cut off the water tissue along an arbitrary cut-off line 1200 in a state in which as long water tissue as a necessary length is pulled out.

The sticker 3300 serving as the main cap in the another embodiment of the present invention is made of a vinyl material.

Accordingly, as shown in FIG. 15A, the sticker 3300 sticks onto the top of the water tissue accommodating section 2000, and thus, it is possible to prevent the moisture evaporation of the water tissue by closing the cutting portion 3210 of the cover 3200.

As shown in FIG. 15B, the user can open the cutting portion 3210 of the cover 3200 by pulling the handle 3310 of the sticker 3300.

As shown in FIG. 15C, the user 1300 can pull out as long water tissue 1000 as a necessary length through the pull-out opening of the cutting portion 3210 of the opened cover 3200, and can use the water tissue 1000 by cutting the water tissue along the cut-off line of the water tissue 1000.

FIGS. 16A and 16B are perspective views showing the water tissue opening and closing section of the lid-type water tissue according to the another embodiment of the present invention. FIG. 16A shows a state in which the main cap of the water tissue opening and closing section is closed, and FIG. 16B shows a state in which the main cap of the water tissue opening and closing section is opened.

As shown in FIGS. 16A and 16B, the water tissue opening and closing section 3000 is attached to the top of the water tissue accommodating section 2000, and thus, it is possible to cut as long water tissue as a necessary length out of the water tissue accommodating section 2000 along an arbitrary cut-off line of the water tissue.

Accordingly, the cover 3200 is attached to the central portion of the water tissue accommodating section 2000, and a cutting portion 3210 having an elliptical shape or a perfect circle shape that cuts the water tissue is formed in the central portion.

The cutting portion 3210 may include a pull-out opening through which the water tissue is pulled out, and a cutting line that is formed near the pull-out opening to cut the water tissue along the cut-off line of the water tissue.

In this case, the pull-out opening may be formed in an elliptical shape or a perfect circle, the cutting lines may be formed so as to be bilaterally symmetric with respect to the pull-out opening, and a plurality of fine holes may be formed in a saw-toothed shape along the cutting lines. The reason why the fine holes are formed is because the water tissue can be smoothly pulled out with less force and can be easily cut.

The pull-out opening of the cutting portion 3210 is formed in an elliptical shape or a perfect circle shape in which the diameter of an opening is large, and thus, the user can conveniently pull out the water tissue with ease.

The cutting portion 3210 can be formed in various shapes such as a “−” shape, a “+” shape, a “X” shape, and a “H” shape, and the shape thereof is not particularly limited as long as the cutting line can cut off the water tissue along an arbitrary cut-off line 1200 in a state in which as long water tissue as a necessary length is pulled out.

The sticker 3300 serving as the main cap may be attached so as to open and close the top of the water tissue accommodating section 2000 by the user.

Here, a handle 3310 that can pull the sticker 3300 may be formed on one side of the sticker 3300 when the cutting portion 3210 of the cover 3200 is opened.

An adhesive 3350 is applied on the peripheral region of the sticker 3300 so as to stick onto the top of the water tissue accommodating section 2000.

Here, it is preferable that the area of the sticker 3300 is relatively greater than that of the cover 3200.

The adhesive 3350 of the sticker 3300 may be applied on the peripheral region of the sticker 3300, but may be applied on the central region corresponding to the peripheral region of the cutting portion 3210 in some cases.

By doing this, since the adhesive 3350 of the sticker 3300 is doubly formed on the peripheral region of the sticker 3300 and the central region corresponding to the cutting portion 3210, it is possible to efficiently prevent the moisture evaporation of the water tissue.

Therefore, in the cap-type or lid-type water tissue according to the present invention, since it is possible to use the water tissue by pulling out and cutting as long water tissue that is integrally stored without being cut into tissue sheets as a necessary length, the user can conveniently use the water tissue by adjusting the length of the pulled water tissue so as to be appropriate for the purpose of use, and can use the water tissue for a long time by saving the water tissue.

Features, structures, or effects described in the foregoing embodiment are included in at least one embodiment of the present invention, and are not necessarily limited to only one embodiment thereof. Further, the features, structures, or effects exemplified in each embodiment may be combined or modified by those skilled in the art and implemented to other embodiments thereof. Therefore, descriptions related to such combinations and modifications will be construed as being included in the scope of the present invention.

While embodiments have been described, these embodiments have been presented by way of example only, and are not intended to limit the invention. It should be understood to those skilled in the art that these embodiments may be modified and applied in a various forms without departing from the essential characteristics of the present embodiments. For example, the constituent elements that are specifically described in the embodiments can be modified and embodied. It should be interpreted that the differences related to the modifications and applications are included in the scope of the present invention.

LEGEND OF REFERENCE NUMBERS

• 1000: water tissue
• 1200: cut-off line
• 2000: water-tissue accommodating section
• 3000: water-tissue opening and closing section
• 3100: installation plate
• 3200: auxiliary cap
• 3210: cutting portion
• 3300: main cap

Claims

1. A cap-type water tissue comprising:

a water tissue accommodating section that has multiple cut-off lines, and stores a water tissue which is integrally connected; and

a water tissue opening and closing section that is attached to the top of the water tissue accommodating section, and cuts as long water tissue pulled out of the water tissue accommodating section as a necessary length along the cut-off line of the water tissue,

wherein the water tissue opening and closing section includes

an installation plate that is attached to the top of the water tissue accommodating section, and is provided with a through hole formed in the central portion thereof,

an auxiliary cap that covers the through hole of the installation plate, and is provided with a cutting portion formed in the central portion thereof so as to cut the water tissue, and

a main cap that is connected to one side of the installation plate so as to be rotated, and opens and closes the top of the installation plate.

2. The cap-type water tissue according to claim 1,

wherein the installation plate includes a first partition wall that protrudes toward a surface facing the main cap, and

the main cap includes a second partition wall and a third partition wall which protrude toward a surface facing the installation plate.

3. The cap-type water tissue according to claim 2,

wherein the first partition wall is positioned between the through hole and the periphery of the installation plate, and is formed along the periphery of the through hole.

4. The cap-type water tissue according to claim 2,

wherein the second partition wall is formed along the periphery of the main cap, and

the third partition wall is disposed so as to be separated from the second partition wall toward the inside of the main cap by a predetermined distance.

5. The cap-type water tissue according to claim 2,

wherein a partial region of the first partition wall is opened, and

the entire region of the second and third partition walls is closed.

6. The cap-type water tissue according to claim 2,

wherein the first partition wall is positioned between the second partition wall and the third partition wall when the main cap closes the top of the installation plate.

7. The cap-type water tissue according to claim 2,

wherein a first groove is formed in a partial region of the second partition wall, and

a second groove is formed in a region of the third partition wall corresponding to the first groove of the second partition wall.

8. The cap-type water tissue according to claim 7,

wherein a hook protrusion that is fastened to the auxiliary cap is formed at the second groove of the third partition wall.

9. The cap-type water tissue according to claim 7,

wherein a handle for rotating the main cap is formed at the first groove of the second partition wall so as to open and close the top of the installation plate.

10. The cap-type water tissue according to claim 2,

wherein at least one fastening protrusion that is fastened to the auxiliary cap is formed at the installation plate so as to be positioned between the through hole and the first partition wall.

11. The cap-type water tissue according to claim 2,

wherein a protrusion bar that protrudes toward the main cap is formed at the installation plate so as to be positioned in the opened region of the first partition wall.

12. The cap-type water tissue according to claim 11,

wherein a hook engagement portion that is fastened to the main cap is formed at the protrusion bar.

13. The cap-type water tissue according to claim 1,

wherein the auxiliary cap is integrally formed by being fixed to the through hole of the installation plate.

14. The cap-type water tissue according to claim 1,

wherein the auxiliary cap is connected to one side of the installation plate so as to be rotated, and is formed as a separable type that opens and closes the through hole of the installation plate.

15. The cap-type water tissue according to claim 14,

wherein the auxiliary cap includes

a cover portion that covers the through hole of the installation plate,

a connection portion that extends from one side of the cover portion, and is connected to one side of the installation plate, and

a fastening portion that extends from the other side of the cover portion, and is fastened to the installation plate.

16. The cap-type water tissue according to claim 15,

wherein the cutting portion includes

a pull-out opening through which the water tissue is pulled out, and

cutting lines that are formed near the pull-out opening, and cut the water tissue along the cut-off line of the water tissue.

17. The cap-type water tissue according to claim 16,

wherein the cutting lines are formed so as to be bilaterally symmetric with respect to the pull-out opening, and a plurality of fine holes is formed along the cutting lines.

18. The cap-type water tissue according to claim 15,

wherein a via hole through which the protrusion bar of the installation plate penetrates is formed in the connection portion.

19. The cap-type water tissue according to claim 15,

wherein at least one fastening hole that is fastened to the installation plate is formed in the fastening portion, and a handle for rotating the auxiliary cap is formed so as to open and close the through hole of the installation plate.

20. (canceled)