WO2017217616A1

WO2017217616A1 - Portable water purifying bottle

Info

Publication number: WO2017217616A1
Application number: PCT/KR2016/013684
Authority: WO
Inventors: 이영훈
Original assignee: 주식회사 플러스
Priority date: 2016-06-16
Filing date: 2016-11-25
Publication date: 2017-12-21
Also published as: KR20170142241A; KR101864679B1

Abstract

A portable water purifying bottle is disclosed. The portable water purifying bottle of the present invention comprises: a case part having, therein, a space in which water is stored; a handle part protruding outwardly from the case part, and rotated by a user's operation; a power generation part connected to the handle part, and generating power by being linked to the rotation of the handle part; and a hydroxyl group generation part located inside the case part, and receiving electricity from the power generation part so as to generate a hydroxyl group.

Description

Portable water purifier

The present invention relates to a portable purified water canister, and more particularly, to a portable purified water canister for drinking clean water purified anywhere anytime by installing a purified water device inside the portable canister.

Generally, a water bottle is a container for storing water, and a portable water bottle that a user can carry with water is widely used for military or civil use.

However, in the related art, even if clean water is put in a water bottle, there is a risk of contamination inside, and soldiers have a problem that it is difficult to always smoothly supply clean water for drinking in the exhibition situation. Therefore, there is a need for improvement.

Background art of the present invention is published in Republic of Korea Patent Registration No. 10-1264244 (2013.05.08 registration, the name of the invention: portable water purification canister).

The present invention has been made to improve the above problems, and an object of the present invention is to provide a portable water purification bottle that can drink clean water purified anywhere anytime by installing a water purification device inside the portable water bottle.

Portable water purifier according to the present invention: a case portion for forming a space for storing water inside, a handle portion protruding out of the case portion and rotated by the user's operation, connected to the handle portion and linked to the rotation of the handle portion The generator is located inside the power generating unit and the case generating power, characterized in that it comprises a hydroxyl generator for generating a hydroxyl by receiving electricity from the power generating unit.

In addition, the present invention is installed in a shape surrounding the hydroxyl generator, characterized in that it further comprises an inner case portion located inside the case portion.

In addition, the power generation unit is connected to the handle portion to receive the rotational power to generate electricity, it is preferable to generate a power source having a different polarity in accordance with the rotation direction of the handle portion.

In another aspect, the present invention, it is preferable to further include a propeller connected to the handle portion penetrating the power generation portion, rotates with the handle portion and guides the flow of water toward the hydroxyl generator.

In addition, the hydroxyl generator includes a pair of electrode and positive electrode portions for receiving a plate or three-dimensional three-dimensional positive electrode portion and a negative electrode portion for generating a hydroxyl group by supplying power, and for supplying power to the positive electrode portion and the negative electrode portion. It is preferable to include an insulating member spaced apart from each other the negative electrode.

In addition, the power input terminals of the positive electrode portion and the negative electrode portion are preferably arranged in a staggered staggered manner.

In addition, it is preferable to further include an electrode guide portion which is located between the power generating portion and the hydroxyl generating portion, and has a space into which the electrode rod is inserted.

Portable water purifier according to the present invention, while the handle is rotated by the user's operation to generate electricity in the power generation unit, using the generated electricity to generate a hydroxyl from the hydroxyl generator generates water to clean the water inside the case part anytime and anywhere Purified clean water can be drunk.

1 is an exploded perspective view showing a portable water treatment can according to an embodiment of the present invention.

Figure 2 is a bottom view of the portable water purification bottle according to an embodiment of the present invention.

3 is a cross-sectional view of a portable drinking water bottle according to an embodiment of the present invention.

Figure 4 is a perspective view showing the outer shape of the inner case portion according to an embodiment of the present invention.

5 is a perspective view showing a state in which the hydroxyl generator is separated from the inner case portion according to an embodiment of the present invention.

6 is an exploded perspective view of a hydroxyl generator according to an embodiment of the present invention.

Hereinafter, a portable water bottle according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom. Therefore, the definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view illustrating an exploded view of a portable water purification bottle according to an embodiment of the present invention, FIG. 2 is a bottom view of a portable water purification bottle according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. 4 is a cross-sectional view of an inner case part according to an embodiment of the present invention, and FIG. 5 is a state in which a hydroxyl generator is separated from an inner case part according to an embodiment of the present invention. 6 is a perspective view illustrating a hydroxyl generator according to an embodiment of the present invention.

As shown in Figures 1 to 6, the portable purified water bottle 1 according to an embodiment of the present invention, the case portion 10 and the case portion 10 to form a space for storing water therein Handle portion 20 protruding outward and rotated by the user's operation, the power generation portion 30 is connected to the handle portion 20 and generates power in conjunction with the rotation of the handle portion 20, the case portion ( Located inside the 10) and receives the electricity from the power generation unit 30 is connected to the hydroxyl generator 40 for generating a hydroxyl, and the handle 20 penetrating through the power generation unit 30, the handle 20 It is rotated with a propeller 70 for guiding the flow of water toward the hydroxyl generator 40, and is located between the power generation unit 30 and the hydroxyl generator 40 and has a space in which the electrode rod 50 is inserted It is installed in a shape surrounding the electrode guide portion 80 and the hydroxyl generator 40, which is located inside the case portion 10 An inner case part 60 is included.

The case part 10 may form a space in which water is stored inside, and may be formed in various shapes within the technical concept of being used in a portable manner. The case part 10 according to the exemplary embodiment includes a main body part 12, a lid member 14, and a base cover 16.

The main body part 12 forms a space for storing water therein, and an outlet for receiving or discharging water may be formed at an upper side as necessary. The lid member 14 for opening and closing the outlet provided in the upper part of the main body 12 is detachably installed in the main body 12.

The base cover 16 is coupled to the lower side of the main body 12 to open and close the opened hole in the lower side of the main body 12. A screw thread is formed on the side of the base cover 16 and the side of the main body part 12 facing the base cover 16 and may be coupled in a screwing manner, and may be fixed by coupling of a separate bolt member.

The handle part 20 protrudes out of the case part 10, and may be formed in various shapes within a technical concept of being rotated by a user's manipulation to induce power generation of the power generation part 30. The handle part 20 according to an embodiment includes a gripping member 22 and a rotating shaft member 24.

The holding member 22 protrudes to the outside of the case part 10 and includes an elastic member so as to be easily grasped and turned by the user, and is installed in a state spaced apart from the center of the power generation unit 30.

The rotary shaft member 24 is connected to the gripping member 22 and is installed in the vertical direction through the center of the power generation unit 30. The rotary shaft member 24 is primarily connected to the power generation unit 30 by passing through the base cover 16 provided at the lower portion of the case part 10, and the upper end of the rotary shaft member 24 is connected to the propeller 70. . Therefore, when the gripping member 22 rotates, the rotating shaft member 24 connected to the gripping member 22 also rotates to operate the power generation unit 30, and at the same time, the propeller 70 also rotates.

The power generation unit 30 is connected to the handle 20, and generates power in conjunction with the rotation of the handle 20. Power generated from the power generation unit 30 is transmitted to the hydroxyl generator 40 installed inside the case unit 10.

In addition, the power generation unit 30 is connected to the handle portion 20 receives the rotational power to generate electricity, it is preferable to generate a power source having a different polarity in accordance with the rotation direction of the handle portion 20.

The hydroxyl generator is located inside the case part 10, and various kinds of hydroxyl generators may be used within the technical concept of generating the hydroxyl by receiving electricity from the power generator 30. The hydroxyl generator 40 according to an embodiment transmits power of the plate-shaped or three-dimensional three-dimensional positive electrode portion 42, the negative electrode portion 46, and the power generation unit 30 to generate the hydroxyl group by supplying power. And a pair of electrode rods 50 for supplying power to the positive electrode portion 42 and the negative electrode portion 46 and the insulating member 52 spaced apart from the positive electrode portion 42 and the negative electrode portion 46.

The

power input terminals

44 and 48 of the positive electrode portion 42 and the negative electrode portion 46 are alternately arranged in a zigzag shape. The positive electrode part 42 and the negative electrode part 46 are formed in a plate shape, and the

power input terminals

44 and 48 that receive power are formed in the groove shape in the positive electrode part 42 and the negative electrode part 46. The electrode rod 50 is formed in a pair of rod shapes, and applies power to the positive electrode portion 42 and the negative electrode portion 46.

A pair of electrode rods 50 installed in parallel to the modules in which the positive electrode portion 42 and the negative electrode portion 46 are alternately stacked are installed to pass through, and the positive electrode portion 42 is disposed through the electrode rod 50 on one side. When electricity is supplied, the other electrode 50 supplies electricity to the negative electrode portion 46 stacked after the positive electrode portion 42.

The insulating member 52 is formed of an insulator and is located outside the electrode 50 so that the positive electrode portion 42 and the negative electrode portion 46 are spaced apart from each other. Insulating member 52 according to an embodiment includes a spacer 54 and the connecting member 56.

The spacer 54 is formed in a disk shape and is stacked between the positive electrode portion 42 and the negative electrode portion 46. Two spacers 54 are formed in a pair and stacked vertically, and the pair of spacers 54 are connected by a connecting member 56 installed in a vertical direction.

The spacer 54 is disposed between the positive electrode portion 42 and the negative electrode portion 46 so that the positive electrode portion 42 and the negative electrode portion 46 are spaced at regular intervals.

The inner case part 60 positioned inside the case part 10 is installed in a shape surrounding the hydroxyl generator 40 and is located inside the case part 10. The inner case part 60 includes a housing part 62 and a connection hole 64.

The inner case part 60 surrounds the outer side of the hydroxyl generator 40 composed of a plurality of positive electrode parts 42 and negative electrode parts 46, and has a plurality of through holes. The positive electrode part 42 and the negative electrode part 46 are positioned inside the inner case part 60, and a plate-shaped base cover 16 is positioned below the inner case part 60.

A plurality of connection holes 64 are provided on the side surface of the housing part 62, and the water inside the case part 10 and the water inside the inner case part 60 are moved through the connection hole 64. . In addition, since the power generation unit 30, the electrode guide unit 80, and the hydroxyl generator unit 40 are positioned inside the inner case unit 60, assembly and disassembly may be easily performed in one module.

The propeller 70 is connected to the handle portion 20 penetrating the power generation portion 30, rotates with the handle portion 20 and guides the flow of water toward the hydroxyl generator portion 40. The propeller 70 is positioned between the electrode guide 80 and the hydroxyl generator 40, rotates with the handle 20, and forces the flow of water toward the hydroxyl generator 40.

The electrode guide part 80 may be positioned between the power generation part 30 and the hydroxyl generator 40, and may be formed in various shapes within a technical concept having a space into which the electrode rod 50 is inserted. The electrode guide part 80 according to the exemplary embodiment includes a support plate 82 and a guide bar 84.

The support plate 82 is formed in a plate shape and is located between the power generation unit 30 and the hydroxyl generator 40. The power generation unit 30 is positioned between the support plate 82 and the base cover 16, and since the support plate 82 is in close contact with the inside of the housing part 62, the support plate 82 and the base cover 16 are disposed between the support plate 82 and the base cover 16. Confidentiality is achieved. The pair of guide bars 84 extend above the support plate 82, and the electrode chamber is inserted into the guide bars 84. Since the electrode bar 50 located inside the guide bar 84 is connected to the power generation unit 30, the electricity generated in the power generation unit 30 is supplied.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating state of the portable water purification bottle 1 according to an embodiment of the present invention.

When the user grabs and turns the handle 20, the power generation unit 30 connected to the handle 20 generates electricity to transfer electricity to the electrode 50. The electricity delivered to the electrode 50 is transferred to the

power input terminals

44 and 48 of the positive electrode portion 42 and the negative electrode portion 46.

The hydroxyl generator 40 induces an inter-electrode discharge in water to generate OH radicals and microbubbles to sterilize. The sterilization principle of OH radicals generates OH ⁻ groups, and after OH ⁻ is combined with H ⁺ of bacteria, OH ⁻ is reduced back to water after breaking the bacterial cell membrane.

Therefore, the water inside the case portion 10 is purified by the hydroxyl generated from the hydroxyl generator 40. In addition, the propeller 70 connected to the rotary shaft member 24 of the handle 20 is rotated to form a flow of water passing through the hydroxyl generator 40.

On the other hand, since the inner case part 60 is provided with a plurality of connecting holes 64, the water stored in the inside of the case part 10 through the connecting hole 64 is moved to the inner case part 60 and purified. It moves to the outside of the inner case part 60 again.

Meanwhile, a separate filter member may be installed in the connection hole 64 of the inner case part 60, and foreign matters in the water inside the case part 10 may be removed through the filter member.

The hydroxyl generator 40 according to an embodiment of the present invention may perform sterilization or hydrogen water production, and the generator 30 may be used as a DC generator or an alternator.

The hydroxyl generator 40, which is supplied with a DC power source, has a sterilization effect by generating various substances since electrolysis reacts several times. In addition, the hydroxyl generator 40, which is supplied with AC power through a DC alternating current inverter (not shown), manufactures hydrogen water since only one or two reactions of electrolysis are performed. To this end, in the DC AC inverter, the frequency of the AC power source is adjusted such that the electrolysis of the hydroxyl generator 40 reacts only with the first and second orders.

The DC power generated by the generator 30 operated by the DC generator is moved to the DC alternating current inverter or the hydroxyl generator 40 to produce hydrogen water. In more detail, when the hydrogen generation unit 40 generates hydrogen water by the electrolysis method, hydrogen ions and hydrogen gas are generated as H ₂ O → H + + OH-, 2H + + 2e-→ H 2.

The positive electrode portion 42 and the negative electrode portion 46 are formed to allow water to pass therethrough, whereby water dissociates while passing through the positive electrode portion 42 and the negative electrode portion 46.

An ion exchange resin (not shown) may be further installed between the positive electrode portion 42 and the negative electrode portion 46. The ion exchange resin may use an anion exchange resin for exchanging anions, a cation exchange resin for exchanging cations, and a cation and anion mixed resin capable of exchanging anions and cations. In particular, in the present invention, it is preferable to use an ion exchange resin capable of ion exchange with nitrogen ions. As an ion exchange resin, the thing containing at least one of what was manufactured by a conventional technique like an ion exchange resin filter, a ceramic filter, an activated carbon filter, and a membrane filter is used illustratively.

As described above, according to the present invention, while the handle portion 20 is rotated by the user's operation to generate electricity in the power generation unit 30, by using the generated electricity to generate a hydroxyl group in the hydroxyl generator 40 Since the water inside the case 10 is purified, it is possible to drink clean water purified anywhere at any time.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. will be. Therefore, the true technical protection scope of the present invention will be defined by the claims below.

Claims

A case part forming a space in which water is stored;

A handle part which protrudes outwardly of the case part and is rotated by a user's manipulation;

A power generation unit connected to the handle part and generating power in association with rotation of the handle part; And

Is located inside the case portion, the portable water can, characterized in that it comprises a; hydroxyl generator for generating a hydroxyl by receiving electricity of the power generation unit.
The method of claim 1,

The water purification unit is installed in a shape surrounding the hydroxyl generator, the inner case portion located inside the case portion; portable water bottle further comprises.
The method of claim 2,

The power generation unit is connected to the handle portion and receives the rotational power to generate electricity, portable water can, characterized in that for generating a power source of different polarity in accordance with the rotation direction of the handle portion.
The method of claim 3, wherein

And a propeller connected to the handle part penetrating the power generation unit and rotating together with the handle part to guide the flow of water toward the hydroxyl generator.
The method according to any one of claims 1 to 4,

The hydroxyl generator includes a plate-shaped or three-dimensional three-dimensional positive electrode portion and a negative electrode portion for generating a hydroxyl group by supply of power;

A pair of electrodes that receive power from the power generation unit and apply power to the positive electrode unit and the negative electrode unit; And

And an insulating member spaced apart from the positive electrode portion and the negative electrode portion.
The method of claim 5,

And a power input terminal of the positive electrode portion and the negative electrode portion are arranged in a zigzag shape to be staggered from each other.
The method of claim 5,

And an electrode guide part disposed between the power generation part and the hydroxyl generator generation part and having a space into which the electrode rod is inserted.