KR200478086Y1 - water bottle - Google Patents

Abstract

The water bottle is started. According to an embodiment of the present invention, the water bottle is formed with a water storage space inside the body in which the upper and lower portions are respectively opened and closed by the upper stopper and the lower stopper, and the bottled water supplied into the water storage space inside the water storage space bottom is made of alkali A reducing agent filling space filled with a reducing agent for converting the reducing agent into a reducing agent and a tea loading space provided to allow a functional material such as coffee or tea to be introduced into the vessel are installed in the reducing agent filling space, And the car insertion space may be provided inside the lower portion of the porous member with the bottom opened so as to be opened and closed by the lower stopper.

Description

Water bottle {water bottle}

The present invention relates to a water bottle designed to convert ordinary bottled water into alkaline reduced water for drinking.

Alkali-reduced water refers to water obtained by reacting water with natural minerals such as magnesium, tourmaline, and coral to generate hydrogen and anion.
Such alkaline-reduced water is rich in active hydrogens, and has been proved to have beneficial effects on the human body, such as removing active oxygen through a strong reducing power and alleviating various diseases.
Therefore, recently, a reducing agent capable of converting the living water into alkaline water is built in, and water bottles are developed that can be converted into alkaline reducing water without any disregard of time and place while being carried.

Japanese Patent Application Laid-Open No. 10-2007-0111822

However, in the case of the water bottle disclosed in the above publication, since the water bottle is provided so as to perform only the function of converting the living water into the alkali reduced water, it is not suitable to be able to drink the functional material such as powdered tea or coffee in the alkali reduced water.
An embodiment of the present invention is to provide a water bottle provided to convert living water into alkaline reducing water and to directly concern a functional material such as powdered tea or coffee to the converted alkaline reducing water.
In addition, it is intended to provide a water bottle provided so that operation of handling alkaline reduced water with a functional substance such as tea or coffee can be performed more easily.

According to an aspect of the present invention, there is provided a water storage device comprising: a main body having a water storage space therein, the upper and lower portions being respectively opened and closed by an upper stopper and a lower stopper; And a porous member integrally provided with a reducing agent filling space filled with a reducing agent for converting the mineral water into alkaline reducing water and a car charging space through which the powdered functional material can be introduced, And the water inlet space is provided with a water bottle formed on the lower side of the porous member with the bottom opened so as to be opened and closed by the lower stopper.
At this time, first and second openings are formed in the upper part of the main body and the lower part of the main body, respectively, and the porous material is formed in the form of a porous barrel having a third opening at the lower part thereof, A porous partition plate is formed, the reducing agent filling space is formed in the upper part of the partition plate, the car insertion space is formed between the third opening and the partition plate, and the sludge material has the third opening, And can be detachably attached to the bottom of the water storage space while being inserted into the opening.
At this time, the porous material is inserted into the water storage space through the second opening from the reducing agent filling space, and the flange extended in the radial direction of the porous material is inserted into the water storage space. And a packing formed around the flange to seal between the body and the lower stopper in the process of being closed.
At this time, the multi-layered material includes a porous cylinder having both ends opened, a porous blocking plate coupled to the upper end of the cylinder so that the upper end of the cylinder can be opened and closed, and one end portion of the blocking plate, And a bending extension portion extending in the transverse direction so as to be supported by the cylinder and spot-welded to the cylinder.
At this time, the main body is formed in a double-walled structure including an outer tube on the upper side and an outer tube on the upper side and an inner tube on the inner side of the upper tube and the lower tube, and a vacuum layer may be formed between the inner tube and the outer tube have.

According to an embodiment of the present invention, a water bottle comprises a reductant filling space filled with a reducing agent for converting living water into alkaline reducing water, a porous member disposed inside the bottom of the water storage space, So that the vehicle can be opened and closed.
Therefore, when the water bottle according to the present invention is used, it is possible to easily concern tea or coffee with alkali reduced water while putting powdered tea or coffee as well as a tea bag directly into the tea throwing space.

1 is a perspective view of a water bottle according to an embodiment of the present invention;
2 is an exploded perspective view of a water bottle according to an embodiment of the present invention.
3 is a cross-sectional view of a water bottle according to one embodiment of the present invention.
Fig. 4 is an enlarged cross-sectional view of the porous member side in Fig. 3;
FIG. 5 illustrates a utilization state of a water bottle according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. In order to clarify the present invention, it is to be understood that the drawings are not to scale, and the size of the components may be slightly exaggerated in order to facilitate understanding.
As shown in FIGS. 1 to 4, the water bottle 1 according to an embodiment of the present invention is used for producing an alkaline reduced tea, in which a functional material such as tea or coffee is directly inspected by using an alkali-reduced water, And a body 10 defining a water storage space 10a having a first opening 11 and a second opening 12 at the lower portion thereof.
The main body 10 is made of stainless steel and has an outer tube 10A on the upper side and an upper side and an inner tube 10B on the inner side of the tube 10A in a state in which the upper and lower portions are opened. And the vacuum layer 13 may be formed to be sealed between the inner tube 10B and the outer tube 10A. The main body 10 can continuously maintain the temperature of the mineral water supplied to the water storage space 10a or the alkali reduction vehicle generated in the water storage space 10a in a hot or cold state for a predetermined period of time.
The body 10 is made of a material such as plastic or stainless steel in the form of a single wall structure having upper and lower openings, for example, when the generated alkali reduction tea is used for drinking for a short time, As shown in FIG.
A band-shaped grip portion 14 may be provided on the outer surface of the main body 10. The grip portion 14 may be made of a soft material such as silicone or rubber, and may be provided to induce soft touch in the process of holding the water bottle 1 by the user.
An upper stopper 20 for opening and closing the first opening 11 is coupled to the upper portion of the main body 10. The upper stopper 20 can be used to supply the mineral water to the water storage space 10a or to open and close the first opening 11 when drinking the alkali reduction tea produced in the water storage space 10a.
The upper stopper 20 may be constituted by a body 21 screwed around the first opening 11 and a cover 22 hinged to one side of the body 21.
A first spiral protrusion 11a is provided on the outer periphery of the body 10 around the first opening 11 so that the body 21 is screwed around the first opening 11, A first helical groove (not shown) may be provided for screwing with the first helical projection 11a.
The cover 22 may be hinged to one side of the upper portion of the body 21 so as to be elastically supported in a direction of opening through an elastic member not shown. (Not shown) automatically releases the first opening while being restrained by the body 21 when the release button 23 provided between the body 21 and the body 21 is released . Of course, when the cover 22 in the opened state is rotated in the closing direction so as to be in close contact with the body, the first opening can be closed while restricting to the body.
Accordingly, when the cover 22 is opened by pressing the release button 23, the contents in the water storage space 10a can be drawn out through the first opening 11 and the body 21. [ A ring-shaped packing 30 for preventing water leakage may be provided between the first opening 11 and the upper cover 20. In the drawing, reference numeral 27 denotes a locking device for allowing or blocking the separation of the body 21 having a double structure.
A lower stopper 40 for opening and closing the second opening 12 is coupled to the lower portion of the main body 10. The lower stopper 40 may be provided so that the porous member 50 to be described later is installed in the water storage space 10a or the porous member 50 provided in the water storage space 10a is provided with a function It can be used when you want to put in the material.
The lower stopper 40 is provided with a cylindrical engagement portion 41 which is screwed around the second opening 12 and a cover portion 42 which surrounds the side edge of the engagement portion 41 in a spaced- .
The second spiral protrusion 12a is provided on the outer periphery of the body 10 around the second opening 12 so that the engaging portion 41 is screwed around the second opening 12, A second helical groove 41a may be provided to be screwed with the second helical projection 12a.
On the other hand, a reducing agent filling space 40a filled with a reducing agent 100 for converting the mineral water supplied into the water storage space 10a into alkali reduced water is provided inside the center of the bottom of the water storage space 10a, A porous member 50 integrally provided with a car charging space 40b provided to allow a functional material such as a fuel cell to be introduced therein.
The porous member 50 may be provided with a stainless steel material which is less susceptible to corrosion and hygienically safe. The porous member 51 has open ends at both ends. The porous member 51 is joined to the upper end of the cylindrical member 51 to cover the upper end of the cylindrical member 51. And a porous barrier plate 52 is formed on the upper surface of the porous plate 52 so as to form a porous tubular shape having an open bottom. The lower portion of the porous member 50 may form an opened third opening 50c.
A porous partition plate 53 is fixed to form a reducing agent filling space 50a in the midway between the upper portion and the lower portion of the porous member 50 and is formed between the partition plate 53 and the blocking plate 52 The reducing agent filling space 50a is filled with a reducing agent 100 for converting the mineral water into alkaline reducing water and the lower part of the reducing agent filling space 50a is filled with the inside of the porous member 50 between the partition plate 53 and the third opening 50c And the space forms a car insertion space 50b opened to the bottom.
The blocking plate 52 and the partition plate 53 may be provided in the form of a porous plate having the same shape so as to be compatible with each other when the porous member 50 is manufactured.
The reducing agent 100 to be filled in the reducing agent filling space 50a is relatively more concentrated in the water storage space 10a than those located around the center of the cylinder 51 so that those located at the center of the inner periphery of the cylinder 51 are adjacent to the outer wall of the cylinder 51. [ There may be a fear that it will react less with the bottled water.
Therefore, as shown in detail in FIG. 2, the fine holes, which make the barrier plate 52 and the partition plate 53 porous, are formed so that the size of the center holes is larger than that of the outermost holes, It is preferable that the flow of the bottled water flowing into and out of the reducing agent filling space 50a through the partition plate 53 is more active in the vertical direction at the central portion than the circumference of the center of the blocking plate 52 and the partition plate 53 The reducing agent 100 filled in the reducing agent filling space 50a reacts more uniformly with the mineral water in the water storage space 10a to generate alkali reduced water.
That is, the flow of the mineral water flowing in the vertical direction at the central portion of the reducing agent filling space 50a and the car insertion space 50b, and the reducing agent filled by the flow of the mineral water flowing from the entire outer surface of the tubular body 51 The reaction efficiency of the injected car can be increased.
As the reducing agent (100), a known natural mineral which is produced by reacting with mineral water such as magnesium, tourmaline, and coral to generate alkali reduced water may be processed into a ball shape.
The porous member 50 is inserted into the main body 10 such that the third opening 50c is inserted into the second opening 12 at the bottom of the main body 10 and is located inside the center of the bottom of the water storage space 10a And can be detachably assembled.
For this, the porous member 50 may be provided in a cylindrical shape having a diameter of the inner diameter size of the second opening 12 of the main body, and around the third opening 50c of the porous member, The flange 54 can be extended radially to engage the second opening 12.
The porous member 50 is in a state in which the flange 54 is caught in the second opening 12 through the second opening 12 which is opened from the side of the blocking plate 52 opposite to the third opening 50c And can enter the bottom of the water storage space 10a. That is, the porous member 50 is inserted into the water storage space 10a through the second opening 12 from the reducing agent filling space 50a, and is inserted into the flange extending in the radial direction of the porous member 50 54). During assembly of the porous member 50, the body 10 may be inverted such that the second opening 12 faces upward.
The second opening 12 in a state in which the flange 54 of the porous member 50 is open in the state in which it is caught in the second opening 12 of the main body 10 is closed by the lower stopper 40, The member 50 can be secured inside the center of the bottom of the body 10 in a state in which the flange 54 is supported between the second opening 12 and the bottom surface of the engagement portion 40 of the lower stopper 40 .
In order to effectively seal between the second opening 12 of the body and the lower stopper 40, the second opening 12 is formed around the flange 54 in the process of being closed by the lower stopper 40, And the lower stopper 40 to be sealed.
A cylindrical body 51 is provided around the outer periphery of the blocking plate 52, the partition plate 53 and the flange 54, that is, the outer periphery of the blocking plate 52 and the partition plate 53 and the inner periphery of the flange 54, The blocking plate 52, the partition plate 53 and the flange 54 may be provided on the inner surface of the tubular body 51, Can be simply spot-welded to the tubular body 51 through the bent extension portions 52a, 53a, 54a supported on the tubular body 51. [ Each of the bending extensions 52a, 53a, 54a may be spot welded and fixed to the cylinder 51 through points spaced apart circumferentially.
Hereinafter, the process of forming and using an alkali reduction difference using a water bottle constructed as described above will be described.
The user opens the lower stopper 40 in a state in which the water bottle 1 is turned upside down so that the lower stopper 40 faces upward irrespective of presence or absence of the living water in the water storage space 10a The functional material 300 such as powdered coffee, tea or a tea bag sealed with these components is introduced into the tea infilling space 50b through the third opening 50c exposed to the outside in this state, As shown in FIG. In this state, when the lower stopper 40 is coupled to the main body 10, the porous member 50 can safely hold the fixed state inside the central bottom portion of the water storage space 10a.
5, the living water 200 in the water storage space 10a is separated from the reducing agent introducing space 50a of the porous member 50 and the water supply space 50a of the porous member 50. In this case, (50b) freely reacts with the reducing agent (100) to be converted into the alkali reducing water, and at the same time, the functional material (300) injected into the tea infilling space (50b) forms an alkali reduction reaction concerned. This reaction occurs in the same manner when the mineral water is filled into the water storage space 10a in a state where the functional material is first introduced into the car insertion space 50b.
In the state where the porous member 50 is located inside the center of the bottom of the water storage space 10a, even when the water of the alkali reduction tank is consumed and the water level of the water storage space 10a is lowered, ) And the functional material 300 to generate an alkali reduction difference continuously. Therefore, as time elapses, the alkali reduction difference within the water storage space 10a is formed through the alkali reduced water having a higher concentration .
The user can fill the water storage space 10a only with the bottled water several times without replacing the functional material 300, so that the alkali reduction tea can be generated and used many times.
The user removes the lower stopper 40 and pulls the porous member 50 out of the main body 10 through the second opening 12 to remove the functional substance The porous member 300 can be discarded and the porous member 50 can be washed, and the water bottle 1 in this state can be stored in a reusable state.
The water bottle 1 in a state in which the reducing agent 100 is always filled in the reducing agent filling space 50a of the porous member 50 has been described in reference to the case of generating the alkali reduction difference using the water bottle 1 It is possible to convert drinking water to alkaline reduced water and drink at any time even if only the living water is supplied to the water storage space 10a without using the functional material 300. [

1: Water bottle 10: Body
11: first opening 12: second opening
13: Vacuum layer 20: Upper plug
40: lower stopper 50: porous member
51: cylinder 52: blocking plate
53: partition plate 54: flange
60: Packing

Claims (5)

A water storage space is formed therein, the upper and lower portions being respectively opened and closed by an upper stopper and a lower stopper,
A reducing agent filling space provided inside the bottom of the water storage space and filled with a reducing agent for converting the mineral water supplied to the water storage space into alkaline reducing water and a car charging space for injecting the functional material in powder form And a porous member
The reducing agent filling space is formed on the upper side of the porous member,
Wherein the car insertion space is formed on the lower side of the porous member with the bottom opened so as to be opened and closed by the lower stopper,
A first opening and a second opening are formed in the upper portion of the main body and the lower portion of the main body,
Wherein the porous material comprises a porous cylinder having a lower third opening formed therein, a porous blocking plate coupled to the upper end of the cylinder so as to cover an opened top of the cylinder, Wherein the reducing agent filling space is formed in the upper part of the partition plate,
Wherein the car insertion space is formed between the third opening and the partition plate,
Wherein the holes formed in the barrier plate and the partition plate are formed such that the size of the central holes is relatively larger than the holes on the outer side. delete The method according to claim 1,
A flange extending in the radial direction of the porous member so as to be inserted into the water storage space through the second opening from the reducing agent filling space;
And a seal formed around the flange to seal between the body and the lower stopper in the process of closing the second opening by the lower stopper. The method of claim 3,
And a bending extension portion extending in the transverse direction and spot-welded to the cylinder so that one end of the blocking plate, the partition plate, and the flange are respectively supported on the inner surface of the cylinder. The method according to claim 1,
The body
An outer outer tube whose upper and lower portions are opened; And an inner cylinder disposed on the inner side of the outer cylinder and having upper and lower openings,
And a vacuum layer formed between the inner passage and the outer cylinder.

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