WO2019078612A1

WO2019078612A1 - Water purifying straw

Info

Publication number: WO2019078612A1
Application number: PCT/KR2018/012255
Authority: WO
Inventors: 권영민
Original assignee: 권영민
Priority date: 2017-10-18
Filing date: 2018-10-17
Publication date: 2019-04-25
Also published as: KR20190043224A; KR102029074B1

Abstract

The present invention relates to a water purifying filter in which drinking water, having passed through an inlet (20) and a filter module (40), flows into a first passage (T1) radially arranged inside a partition container (B) and filled with sterilizing grains (R), and then, is discharged through a third passage (T3) after passing through a second passage (T2), thereby enabling portability and a sterilizing capability to be simultaneously ensured by increasing the transit distance of the drinking water, which passes through the sterilizing grains (R), as a length extension effect by means of multistage passages, such as the radial first passage (T1), second passage (T2), and third passage (T3), even having the same size (height).

Description

Purification Straw

The present invention relates to a purified water straw, and more particularly, to a drinking water sterilizing method in which drinking water flowing through an inlet and a filter module is introduced into a first passage filled with sterile granules while being radially provided in a split tube, and then passed through a second passage, So that the length of the sterile pellets passing through the drinking water can be increased as a result of the extension of the length by the multi-pass passages of the first passage, the second passage and the third passage in the radial direction and the portability and sterilization ability At the same time.

Generally, the purified straw serves to clean the water of the natural zone or relatively unclean water which is not supplied by the water source cleanly.

FIG. 1B is an exploded perspective view showing a drinking straw according to the prior art document, FIG. 1C is a perspective view showing a drinking straw according to the prior art document (Korean Patent Laid-Open Publication No. 2017-0059688) Fig.

As shown in FIGS. 1A to 1C, the drinking straw according to the prior art document is constructed by supplying water or relatively clean water from a natural zone, which is not supplied with a water source, (30) and is designed to be able to drink more cleanly.

More specifically, the drinking straw according to the prior art document comprises a filter module 40 mounted on the inlet 20 for filtering the foreign substances contained in the drinking water, and a filter module 40 built in the pipe 30 and filtered by the filter module 40 And an iodine module 50 for sterilizing the bacteria contained in the drinking water.

1D is an exploded perspective view showing an iodine module applied to a drinking straw according to the prior art document.

The iodine module 50 includes a barrel 52 for containing the iodine granules 51 as shown in Figs. 1A to 1D, a mesh 53 for covering both ends of the barrel 52, And a cap 54 fixed to both ends of the barrel 52 while having a longitudinal through hole 54a.

1E is an exploded perspective view showing a filter module applied to a drinking straw according to the prior art document.

The filter module 40 includes a cylindrical body 41 detachably threaded to the pipe 30 as shown in Figs. 1A to 1C and 1E, and a hollow fiber yarn 42).

However, the drinking straw according to the prior art document should be able to suck the drinking water into the pipe 30 via the inlet 20 by the suction force through the inlet 10, but when the suction force is weak like a child, It is not easy to suck the drinking water easily, and it is not easy to wash the inside of the pipe 30. Therefore, unsanitary problems occur.

The drinking straw according to the prior art document uses the iodine module 50 in which the iodine granules 51 are simply filled in the lengthwise direction in the barrel 52, The length of the barrel 52 must be made long so that the overall size of the barrel 52 is increased.

The object of the present invention is to sterilize sterilized granules in the spiral tube from the inlet to the outlet through which the drinking water is introduced through the inlet and filter modules and to sterilize the sterilized granules in the same size (height) The present invention provides a purified straw which can increase the distance of the pellets to ensure portability and sterilization ability at the same time.

An object of the present invention is to provide a purified water extract straw which can remove active oxygen while neutralizing acidified water by cleansing germs by sucking water in a poor natural region or relatively unclean water, .

It is an object of the present invention to provide an apparatus and a method for disinfecting a sterilizing granule so that drinking water passed through an inlet and a filter module is radially provided in a dividing cylinder and then introduced into a first passage filled with sterile granules and then discharged via a third passage, (Height), it is an extension effect of the length by the multi-end passages of the first passageway, the second passageway and the third passageway in the radial direction. As a result, the distillation distance of the sterilized pellets passing through the drinking water is increased to secure the portability and the sterilizing ability at the same time It is in providing straw.

An object of the present invention is to provide an apparatus and a method for supplying drinking water through an inlet and a filter module to a first passage and then to a connecting hole passing through a lower portion of a first partition and passing through a second passage, The second passage, the third passage, and the third passage in the same size (height), so that the sterilized pellets passing through the drinking water as the effect of extending the length by the multi-pass passages of the first passage, The present invention provides a drinking straw capable of increasing the distance to the passageway and simultaneously ensuring both the portability and the sterilizing ability.

It is an object of the present invention to enable a user to suck drinking water through an inlet port by a suction pressure of a pressure module so that drinking water can be easily consumed even if the suction force is weak, In which the drinking water in the pipe is easily discharged through the inlet port, so that it is possible to facilitate the cleaning in the pipe including the filter module and the sterilizing module by repeating the suction pressure and the discharge pressure.

It is an object of the present invention to maximize suction and discharge of drinking water by concentrating suction pressure and discharge pressure in a donut-shaped space, and also to maintain a state in which a pressure module enters a donut- Which is capable of ensuring portability even if it is reduced in size.

It is an object of the present invention to provide an integral straw which can be realized with a single outer diameter from an upper cover to a pipe, a lower inner cylinder and a lower cover.

It is an object of the present invention to provide a sterilized straw which can be easily fitted and disassembled by allowing the sterilization module to be closely fitted to the inner periphery of the upper inner cylinder and the lower inner cylinder by an O-ring.

According to an aspect of the present invention,

A drinking water is sucked through a filter module mounted on an inlet by a suction force through a suction port to filter foreign substances and sterilized through a sterilization module,

The sterilization module

An inlet for introducing the drinking water via the inlet and the filter module,

A spiral tube for containing sterile pellets for sterilizing the bacteria contained in the drinking water introduced into the inlet,

And an outlet for discharging the drinking water sterilized by the sterilized granules of the spiral tube to the inlet.

According to an aspect of the present invention,

The sterilizing module includes a radial first passage, a second passage and a third passage through which the sterilizing particles are filled by the radially formed first partition, the second partition and the third partition, And a dividing cylinder for receiving the refrigerant through the first passage and discharging the refrigerant to the suction port via the second passage and the third passage.

The present invention relates to a sterilization device for sterilization of sterilized pellets in which sterilizing granules are accommodated in a spiral tube extending from an inlet to an outlet for introducing drinking water via an inlet and a filter module, It is effective to increase the mileage to ensure both portability and sterilization ability.

The present invention has the effect of eliminating active oxygen by neutralizing the acidified water and clearing the watery taste by sucking in water of a poor natural region or relatively unclean water of the water source.

In the present invention, the drinking water flowing through the inlet port and the filter module is introduced radially into the divided barrel and introduced into the first passageway filled with the sterilized pellets, and then discharged through the third passageway through the third passageway, The effect of extending the length by the multi-end passages of the first passageway, the second passageway, and the third passageway in the radial direction can be extended to increase the passage distance of the sterilized pellets carried by the drinking water, thereby ensuring both the portability and the sterilizing ability .

The present invention is characterized in that drinking water flowing through an inlet and a filter module flows into a first passage, passes through a connection hole bored in a lower portion of a first partition, passes through a connection hole bored in an upper portion of the second partition, The second passageway, and the third passageway so that they can be discharged to the intake port while passing through the third passageway. Thus, as the effect of extending the length by the multi-passageway of the first passage, the second passage and the third passage, It is possible to secure both the portability and the sterilizing ability at the same time.

The present invention enables the drinking water to be sucked through the inlet by the suction pressure of the pressure module so that drinking water can be easily consumed even when the suction force is weak, such as a child, an elderly person or patients, Such as the filter module and the sterilizing module, by making it possible to easily discharge the drinking water in the filter module and the sterilizing module through the inlet port by repeating the suction pressure and the discharge pressure.

In the present invention, suction pressure and discharge pressure are concentrated in a donut-shaped space to maximize suction and discharge of drinking water. In addition, when the pressure module is not in use, the pressure module is kept in a state of entering the donut- It is possible to ensure the portability.

The present invention can firmly protect the sterilizing module by simple assembly of the upper inner cylinder and the lower inner cylinder, and in particular, by the lower outer cylinder having the same outer diameter as the outer diameter of the pipe, The lower inner cylinder can be made of a single outer diameter, so that a simple and simple integral straw can be realized.

The present invention has an effect that it can be realized with a single outer diameter from the pipe to the lower inner cylinder and the lower cover.

The present invention can be implemented with a single outer diameter from the upper cover to the pipe, the lower inner cylinder and the lower cover.

The sterilization module can be closely fitted to the inner periphery of the upper inner cylinder and the lower inner cylinder by the O-ring, thereby facilitating assembly and disassembly of the sterilization module, and sucking water of a poor natural water source or relatively non- As a module, there is an effect that the bacteria can be eradicated as the iodine granules after the foreign substance is removed, so that the drinking water can be consumed in a more clean state.

1A is a perspective view showing a drinking straw according to the prior art document (Korean Patent Laid-Open Publication No. 2017-0059688).

1B is an exploded perspective view showing a drinking straw according to the prior art document.

1C is a sectional view showing a drinking straw according to the prior art document.

Figure 2a is a perspective view of a purified straw according to the present invention;

Fig. 2b is an exploded perspective view showing a purified straw according to the present invention; Fig.

2C is a cross-sectional view of a purified straw according to the present invention.

FIG. 3A is a perspective view showing a sterilization module applied to a purified straw according to a first embodiment of the present invention; FIG.

FIG. 3B is an exploded perspective view showing a sterilization module applied to a purified straw according to the first embodiment of the present invention; FIG.

4A is a perspective view showing a sterilizing module applied to a purified straw according to a second embodiment of the present invention;

FIG. 4B is an exploded perspective view showing a sterilization module applied to a purified straw according to a second embodiment of the present invention; FIG.

Best Mode for Carrying Out the Invention [

The drinking water is sucked into the pipe 30 while filtering the foreign matter through the filter module 40 mounted on the inlet 20 by the suction force through the suction port 10 and sterilizing the bacteria through the sterilization module 50, For the purified water straw,

The sterilization module (50)

An inlet (I) for introducing drinking water via the inlet (20) and the filter module (40)

A spiral tube (G) for containing sterilized particles (R) for sterilizing the bacteria contained in the drinking water introduced into the inlet (I)

And an outlet (C) for discharging sterilized drinking water sterilized by the spiral tube (G) to the inlet (10).

Best Mode for Carrying Out the Invention [

The sterilization module 50 includes a radial first passage T1 filled with sterilized particles R by a radially formed first partition B1, a second partition B2 and a third partition B3, The second passage T2 and the third passage T3 are provided and the drinking water passing through the inlet 20 and the filter module 40 is received through the first passage T1, And a dividing cylinder (B) for discharging the air to the suction port (10) via a third passage (T3).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of a purified water straw according to the present invention will be described with reference to the drawings, and there can be a plurality of embodiments thereof, and the objects, features and advantages of the present invention can be better understood do.

FIG. 2A is a perspective view showing a purified straw according to the present invention, FIG. 2B is an exploded perspective view showing a purified straw according to the present invention, and FIG. 2C is a sectional view showing a purified straw according to the present invention.

2A to 2C, drinking water is sucked into the pipe 30 through the filter module 40 mounted on the inlet 20 by the suction force of the suction port 10, So that the bacteria can be sterilized and sterilized through the sterilization module 50.

The water source sucks the water of the poor natural area or relatively unclean water, removes foreign matter as the filter module 40, and then sterilizes the various bacteria as the sterilization module 50, thereby drinking the drinking water in a more clean state.

The purified straw according to the present invention includes a pressure module 60 for forward and backward movement into the pipe 30 and for sucking the drinking water through the inlet 20 at the suction pressure during the backward movement and discharging the drinking water through the inlet 20 at the forward pressure ) As core components.

It is possible to suck the drinking water through the inlet 20 at the suction pressure of the pressure module 60 so that the drinking water can be easily consumed even if the suction force is weak like a child, And the sterilization module 50. The filter module 40 and the sterilization module 50 are connected to each other through the inlet 30 and the inlet 30, .

The filter module 40 is mounted on the inlet 20 and centered on the pipe 30 to provide a donut-shaped space D spaced from the inner periphery of the pipe 30. The pressure module 60 is sterilized The module 50 is retracted to retract from the donut-shaped space D when the module 50 is retracted to suck the drinking water through the inlet 20 at a suction pressure and to be advanced while entering the donut-shaped space D at the time of advancing, So that the suction pressure and the discharge pressure are concentrated in the donut-shaped space D, thereby maximizing the suction and discharge of the drinking water. In addition, when the pressure module 60 is not in use, It is possible to maintain the state of entering the donut-shaped space D, thereby ensuring the portability by reducing the entire length.

More specifically, the pressure module 60 includes an upper inner tube 61 which is brought into close contact with the O-ring O in the pipe 30 and back and forth into a donut-shaped space and holds the upper end of the sterilizing module 50, And a lower outer tube 62 coupled to the upper inner tube 61 and having the same outer diameter as the outer diameter of the pipe 30 to hold the lower end of the sterilization module 50.

The sterilization module 50 can be securely protected by the simple assembly of the upper inner tube 61 and the lower inner tube, and in particular, by the lower outer tube 62 having the same outer diameter as the outer diameter of the pipe 30, And the sterilization module 50, the lower inner cylinder can be made to have a single outer diameter together with the pipe 30, thereby realizing a simple and pure water straw.

And a lower cover 71 covering the intake port 10 with the same outer diameter as that of the lower outer cylinder 62. The lower cover 71 covers the intake port 10 from the pipe 30 to the lower inner cylinder and the lower cover 71 with a single outer diameter So that it becomes more preferable.

In addition, an inlet cap 80 having an inlet pipe 81 coupled to the inside of the inlet 20 protects the filter module 40, and an elongated tube (not shown) is connected to the inlet pipe 81 It is possible to more easily realize the drinking of drinking water located deep in a PET bottle or a natural zone.

The upper cover 72 covers the inlet 20 and has the same outer diameter as the pipe 30. The upper cover 72 covers the pipe 30, the lower inner cylinder and the lower cover 71, Of the outer diameter of the outer circumferential surface.

The filter module 40 is centered from the inlet 20 into the pipe 30 to provide a donut-shaped space D and a filter box 41 in which a side hole 41a and a bottom hole 41b are drilled. And a hollow fiber yarn 43 which is tightly fitted in the cylindrical body 42 and spreads into the filter case 41. The hollow fiber yarn 43 is wound around the filter case 41,

The hollow fiber yarn 43 has a hollow fiber yarn 43 inserted in the cylindrical body 42 in advance so that the drinking water can be introduced into the pipe 30 while blocking the inflow of foreign matter to drink more clear drinking water, It is possible to maximize the assembling property by simply connecting the cylindrical body 42 to the filter case 41 and to provide the hollow fiber yarn 41 by spreading it in the filter case 41 centered in the pipe 30 from the inlet 20 43 can secure the service life and ensure that the drinking water easily flows into the side hole 41a and the bottom hole 41b of the filter case 41 through the suction pressure and the discharge pressure by the pressure module 60 Can be done.

On the other hand, the sterilization module 50 includes a barrel P for receiving the iodine granules Y while being closely fitted to the inner periphery of the upper inner cylinder 61 and the lower outer cylinder 62 by an O-ring O, And a hollow cap J fixed to both ends of the barrel P while holding the mesh M. [

The sterilization module 50 can be closely fitted to the inner circumference of the upper inner cylinder 61 and the inner cylinder of the lower inner cylinder by the O-ring O, thereby facilitating the assembly and disassembly of the sterilization module 50, The filter module 40 removes foreign substances and then eradicates the bacteria as the iodine granules Y so that the drinking water can be consumed in a more clean state.

The filter module 40 according to the present invention further includes a band net 44 that binds the hollow fiber yarn 43 to be inserted into the cylindrical body 42 so as to surround the hollow fiber yarn 43, So that the fiber yarn 43 can be easily fitted into the cylindrical body 42.

FIG. 3A is a perspective view showing a sterilization module 50 applied to a purified straw according to a first embodiment of the present invention, and FIG. 3B is a perspective view showing a sterilization module 50 applied to a purified straw according to the first embodiment of the present invention. It is a perspective view.

The sterilization module 50 applied to the purified straw according to the first embodiment of the present invention includes an inlet I for introducing the drinking water via the inlet 20 and the filter module 40 as shown in Figures 3A and 3B, A spiral tube G for containing sterilized particles R for sterilizing the bacteria contained in the drinking water introduced into the inlet I and a drinking water sterilized by the sterilized particles R of the spiral tube G, And an outlet C for discharging the gas to the outlet 10.

The sterilization straw should be able to carry as easily as possible, while the sterilization ability of bacteria must be thorough so that the drinking water can be hygienically consumed. In order to thoroughly sterilize bacteria, as shown in FIGS. 2A to 2C, The length of the sterilizing module 50 is increased to make it difficult to carry. Conversely, if the length of the sterilizing module 50 is reduced for the portable performance, the sterilizing ability of the bacteria is weakened.

In the first embodiment of the present invention, in consideration of these points, the spiral tube (G) from the inlet (I) to the outlet (C) for introducing the drinking water via the inlet (20) and the filter module (40) The spiral tube (G) can be integrally formed, and the sterilized granule (R) can be accommodated in the granule (s) after completion of assembly and assembly. By increasing the distance of sterile pellets (R) through drinking water, it is possible to guarantee both portability and sterilization ability at the same time.

At this time the inlet I and the outlet C of the sterilization module 50 can be covered by the mesh M and fixed into the inlet I and the outlet C while holding the mesh M And the hollow cap (J) to ensure the flow of the drinking water while thoroughly preventing the dislodgement of the sterilized kernel (R).

Preferably, the sterilized granules R are successively filled with activated carbon granules H, hydrogen granules S and iodine granules B between an outlet C in the spiral tube G and a mesh M covering the inlet I, (Y). At this time, additional meshes M are sequentially placed between the meshes M covering the outlet C and the inlet I in the spiral tube G, and the activated carbon particles H, the hydrogen grains S and the iodine It may be possible to fill the grain (Y).

The iodine granules (Y) act to eradicate the germs by sucking in water or relatively unclean water, which is poor in water resources, and the hydrogen granules (S) are, for example, magnesium granules of weakly alkaline components, The active carbon particles (H) are purified through the iodine granules (Y) and the hydrogen granules (S) to clear the water tastes, while the activated carbon granules (H) At the same time, it acts to remove chlorine, so that it can be usefully applied to the present invention.

FIG. 4A is a perspective view showing a sterilization module 50 applied to a purified straw according to a second embodiment of the present invention, FIG. 4B is a perspective view showing a sterilization module 50 applied to a purified straw according to a second embodiment of the present invention, It is a perspective view.

The sterilization module 50 applied to the purified straw according to the second embodiment of the present invention includes a first partition B1, a second partition B2, and a third partition (not shown) formed radially as shown in Figs. 4A and 4B Via the inlet 20 and the filter module 40 while providing the first passage T1, the second passage T2 and the third passage T3 in the radial direction in which the sterilizing particles R are filled by the first, And a dividing cylinder B for taking drinking water through the first passage T1 and discharging the drinking water to the suction port 10 via the second passage T2 and the third passage T3.

In the second embodiment of the present invention, the drinking water passing through the inlet 20 and the filter module 40 is introduced into the first passage T1 filled with the sterilized particles R while being radially provided in the split tube B The first passage T1, the second passage T2 and the third passage T3 in the same size (height) can be discharged through the third passage T3 through the second passage T2. In this case, in the second embodiment of the present invention, the partitioning tube B is divided into the first passage T1 and the second passage T1, and the sterilizing capacity of the sterilizing granules R, And the second passage T2 and the third passage T3, but it is also possible to divide into two or multiple portions.

More specifically, the lower end of the first passage T1 is closed with the closing cap Z while the upper end is covered with the mesh M and the hollow cap J, and the upper and lower ends of the second passage T2 are closed The lower end is covered with the mesh M and the hollow cap J while the upper end of the third passage T3 is closed with the cap Z and the lower end is covered with the mesh M and the hollow cap J while the upper end of the third passage T3 is covered with the cap Z, The connection hole N is opened in the second partition B2 and the connection hole N is opened in the upper portion of the second partition B2 so that the connection hole N can be covered with the mesh M. [

The drinking water flowing through the inlet port 20 and the filter module 40 flows into the first passage T1 and then passes through the connection hole N bored in the lower portion of the first partition B1 to the second passage T2, Through the third passage T3 after passing through the connection hole N opened in the upper part of the second partition B2 through the first passage B2 so as to be discharged to the suction port 10, The length of the sterilized grain R through the drinking water as the effect of extending the length by the first passage T1, the second passage T2 and the third passage T3 is increased to ensure the portability and the sterilizing ability at the same time.

At this time, the sterilized granules R contain the iodine particles Y filled in the first passage T1, the hydrogen grains S filled in the second passage T2, the activated carbon F filled in the third passage T3, And may be made of the granules (H).

INDUSTRIAL APPLICABILITY The present invention can be applied to industrial fields that enable drinking water to be cleaner.

Claims

A drinking water is sucked through a filter module mounted on an inlet by a suction force through a suction port to filter foreign substances and sterilized through a sterilization module,

The sterilization module

An inlet for introducing the drinking water via the inlet and the filter module,

A spiral tube for containing sterile pellets for sterilizing the bacteria contained in the drinking water introduced into the inlet,

And an outlet for discharging sterilized drinking water sterilized by said spiral tube to said inlet.
The method according to claim 1,

A mesh covering the inlet and the outlet;

And a hollow cap fixed to the inlet and the outlet while holding the mesh.
3. The method of claim 2,

The sterile pellets

Hydrogen granules and iodine granules, which are sequentially filled between meshes covering the outlet and the inlet of the spiral tube, respectively.
A drinking water is sucked through a filter module mounted on an inlet by a suction force through a suction port to filter foreign substances and sterilized through a sterilization module,

The sterilizing module includes a radial first passage, a second passage and a third passage through which the sterilizing particles are filled by the radially formed first partition, the second partition and the third partition, And a dividing cylinder for receiving the liquid through the first passage and discharging the liquid through the second passage and the third passage to the suction port.
5. The method of claim 4,

The lower end of the first passageway is clogged with a finishing cap while the upper end is covered with a mesh and a hollow cap,

The upper and lower ends of the second passageway being clogged with a finishing cap,

The top of the third passageway is clogged with a finishing cap while the bottom is covered with a mesh and a hollow cap,

Wherein the first partition is formed with a connection hole at a lower portion thereof,

And a connection hole is formed in an upper portion of the second partition wall.
6. The method of claim 5,

Wherein said connection hole is covered with a mesh.
The method according to claim 6,

The sterile pellets

Iodine particles filled in the first passage,

Hydrogen pellets filled in the second passage,

And an activated carbon granule filled in the third passage.
8. The method according to any one of claims 1 to 7,

And a pressure module for sucking the drinking water through the inlet at a suction pressure during backward movement into the pipe and discharging the drinking water through the inlet at a discharge pressure at the time of advancing.
9. The method of claim 8,

Wherein the filter module is provided with a donut-shaped space mounted on the inlet and spaced from an inner periphery of the pipe while being centered in the pipe,

And the pressure module is advanced backward while escaping from the donut-type space when the sterilizing module is retracted, and is drawn back into the donut-shaped space when advancing, And the drinking water is discharged through the outlet.
10. The method of claim 9,

The pressure module

An upper passageway which is moved forward and backward in the donut-shaped space while being closely attached to the pipe by an O-ring, and which holds the upper end of the sterilizing module,

And a lower outer tube having the inlet port and coupled to the upper inner cylinder and having an outer diameter equal to the outer diameter of the pipe and holding the lower end of the sterilization module.
11. The method of claim 10,

And a lower cover having the same outer diameter as the lower outer tube and covering the suction port.
12. The method of claim 11,

And an inflow cap having an inflow tube coupled to the inside of the inflow port.
13. The method of claim 12,

And an upper cover having the same outer diameter as the pipe and covering the inlet.
10. The method of claim 9,

The filter module

A donut-shaped space is provided from the inlet port to the inside of the pipe, a filter passage through which side and bottom holes are drilled,

A cylindrical body detachably coupled to the filter case,

And a hollow fiber yarn which is tightly fitted into the cylindrical body and spreads into the filter cylinder.