KR20160049678A - a sterklizer ejected container for the formation of hydrogen water - Google Patents

Abstract

The present invention relates to a sterilizing device in which a hydrogen water producing container is attached and detached. In addition, the sterilizing device is formed to have a structure in which a portable or small hydrogen water producing container is attached and detached. Therefore, the hydrogen water producing container receives power while being mounted on the sterilizing device to produce hydrogen water, or receives power independently to produce hydrogen water. Furthermore, a structure of the hydrogen water producing container is simplified and miniaturized to be easily mounted on the sterilizing device and to allow a user to carry out easily. Therefore, provided is the sterilizing device in which the hydrogen water producing container is attached and detached. According to the present invention, the sterilizing device in which a hydrogen water producing container is attached and detached comprises: a sterilizing device including a body, a sterilizing module combined to be attached and detached in the front of the body, and sterilizing water while being separated and immersed in the water, and a mounting plate inserted into the rear of the body and spread by being separated from the body due to hinge-combination; and a hydrogen water producing container mounted on the spread mounting plate, and producing hydrogen water by using power supplied to the sterilizing device.

Description

[0001] The present invention relates to a sterilizing device,

The present invention relates to a sterilizing apparatus in which a sterilizing apparatus is constructed so that a portable or small-sized water-containing water generating container can be detachably attached to the sterilizing apparatus, The water supply system can be simplified and miniaturized so that the water can be easily installed in the sterilizing apparatus. In addition, The present invention relates to a sterilizing apparatus in which a water-containing water generating container is attached and detached to facilitate the user's portability.

Generally, sterilization apparatus generates low-temperature plasma in water to convert ordinary water such as tap water or ground water into strong disinfection water of natural nature, so that 99.9% of germs and toxic chemicals (residual pesticides, etc.) It is a device that completely disinfects and decomposes harmful substances.

This sterilization device is used to disinfect, disinfect, disinfect and purify various organic and inorganic substances in water, and to make sterilized disinfectant water with strong sterilization power for tap water or ground water, and to produce sterilized water such as Escherichia coli, cholera bacteria, , Pseudomonas aeruginosa, Salmonella, Legionella, Candida, and so on.

On the other hand, in addition to the sterilizing apparatus, a hydrofluoric acid generator is used in homes, companies, and the like. Hydrogen refers to water dissolved in water, and hydrogen contained in hydrogen peroxide is combined with active oxygen in the body to be converted into urine or sweat and discharged to the outside of the body. Hydrogen is the element with the smallest molecular weight and has the advantage of having antioxidant ability several hundred times higher than coenzyme, catechin, polyphenol, vidamin C, and vitamin E.

Because of the advantages of these water molecules, hydrogen water generating devices are being used at home or in the company. However, such a conventional water producing apparatus is used in a room such as a water purifier or a cold / hot water generator.

However, the user has a desire to drink few water without being limited by the place and time, and in order to reflect this, there is a need to make the water producing device small or portable.

However, a hydroponic generation device which can be used without restriction of time and space by the user so far has not been proposed, and further, a small or portable water generating device can be attached to or removed from a sterilizing device disposed in the home or company There is no description of a structural device which can be combined with the structure.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a sterilizing device which is constructed so that a portable or small- The water supply system can be simplified and miniaturized so that the water supply system can be easily installed in the sterilization apparatus. And a sterilizing device in which a hydrogen-containing water generating container is attached and detached for facilitating the user's portability.

According to an aspect of the present invention, there is provided a sterilizing apparatus including a body and a front portion of the body, the body being detachably coupled to the body, A disinfecting module for disinfecting water, and a seating plate inserted into a rear portion of the body, the seating plate being detached from the body by hinge coupling; And a water generating container mounted on the deployed seating plate for generating hydrogen water using a power source supplied to the sterilizer.

Here, the seating plate is hinged to a lower side of the body, is held in a horizontal state when it is released from the body, and is formed on an upper surface in an unfolded state to form an insertion seat capable of placing the hydrogen- And a protruding terminal inserted and connected to a terminal insertion groove formed in a lower surface of the hydrogen-producing container is formed in the insertion seat portion.

Here, the hydrogen-containing water generating container may include a support case having an inner housing space formed on the upper side thereof and a printed circuit board mounted on the lower side thereof, and a support case disposed in the inner housing space, electrically connected to the printed circuit board, An electrode module for generating hydrogen water; a fixed cover disposed on the electrode module, the fixed cover being coupled to the supporting case to prevent the electrode module from being separated from the electrode module; And a container which is placed so as to be possible.

Here, the electrode module may include a connection terminal formed of a first connection terminal having a low protrusion height and a second connection terminal having a high protrusion height, the connection terminal being protruded to the internal accommodation space while being electrically connected to the printed circuit board, A second electrode disposed above the first electrode and electrically connected to only the second connection terminal, and a second electrode disposed interposed between the first electrode and the second electrode, And an insulating plate electrically insulating the one electrode and the second electrode.

In addition, a first sealing material is interposed on the upper surface of the rim of the supporting case, which is in contact with the lower surface of the fixing lid, to maintain the airtightness between the fixing lid and the supporting case.

In addition, a bottom end portion is formed at an outer edge of the top surface of the fixed lid, and a second sealing material is inserted into the bottom end portion of the fixed lid to maintain airtightness between the fixed lid and the container.

According to the sterilizing device of the present invention having the above-described problems and the solution, the sterilizing device is configured to have a structure capable of detachably mounting a portable or small-sized water generating container, It is possible to generate hydrogen water by being supplied with power in a state where it is mounted on the sterilizing apparatus or to generate hydrogen water by receiving power independently and as a result the user can selectively generate the hydrogen- There are advantages to use.

In addition, the structure of the hydrogen-containing water container can be simplified and miniaturized so that it can be easily attached to the sterilizing apparatus, and the user can easily carry it.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a sterilizing apparatus according to an embodiment of the present invention. FIG.
2 is a perspective view of a sterilizer applied to a sterilizing apparatus in which a hydrogen-producing container according to an embodiment of the present invention is attached and detached.
3 is an explanatory diagram illustrating the use of a sterilizer applied to a sterilizing apparatus in which a hydrogen-producing container according to an embodiment of the present invention is attached and detached.
4 is an explanatory view of the use of a sterilizing field in which a hydrogen-producing container according to an embodiment of the present invention is detached.
FIG. 5 is a perspective view illustrating a connection of a hydrogen-producing container applied to a sterilizing device in which a hydrogen-producing container is detached according to an embodiment of the present invention.
FIG. 6 is an exploded perspective view of a hydrogen-producing container applied to a sterilizing apparatus in which a hydrogen-producing container according to an embodiment of the present invention is detached; FIG.
FIG. 7 and FIG. 8 are detailed views of an electrode module constituting a hydrogen-water producing container applied to a sterilizing apparatus in which a hydrogen-producing container according to an embodiment of the present invention is attached and detached.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a sterilizing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator.

FIG. 1 is a perspective view of a sterilizing apparatus according to an embodiment of the present invention. FIG. 2 is a perspective view of a sterilizer constituting the present invention, FIGS. 3 and 4 are views for using a sterilizer, 5 is a perspective view of a water producing container constituting the present invention, and Figs. 6 to 8 are exploded perspective views of a water producing container.

1 to 8, a sterilizing device in which a water generating container according to an embodiment of the present invention is detached and removed will be described in detail.

1, a sterilizing apparatus 100 according to an embodiment of the present invention includes a conventional sterilizer 60 and a small or large-sized sterilizer 60 that can be detachably coupled to the sterilizer 60. [ And a portable water producing container 10.

2 to 4, the sterilizer 60 according to the present invention may include a body 61 of a predetermined shape and a detachable coupling unit 60 which is detachably coupled to a front portion of the body 61, And sterilizing module 63 for sterilizing water by being immersed in water.

The sterilizing module 64 is connected to the body 61 by a power supply line 67 and the body 61 receives power from the outside through a power line (not shown). Accordingly, the sterilizing module 64 may receive the power supplied to the body 61 through the power supply line 67 to perform the sterilizing operation.

When the sterilization module 63 is not used to sterilize water, the sterilization module is stably mounted on the front surface of the body 61. A module insertion portion 61a into which the sterilizing module 643 can be inserted and a module seating portion 63b with the sterilizing module 63 in which the sterilizing module 63 can be placed are formed on the front surface of the body.

The sterilizer 60 further includes a seating plate 65 on which the hydrogen-producing container 10 can be mounted. Accordingly, the hydrogen-producing container 10 can be attached to the sterilizer, specifically, the seating plate 65.

The seating plate 65 is inserted into the rear portion of the body 61 and is detached from the body 61 by a hinge. Accordingly, the hydrogen-producing container 10 may be mounted on the seating plate 65, which is inserted into the rear portion of the body and is detached from the body by hinge coupling.

The seating plate 65 is normally disposed in a state of being inserted into a seating plate mounting groove 61c formed concavely in the rear portion of the body, and only when it is necessary to seat the water producing container, And is released from the seating plate mounting groove to maintain the unfolded state.

The hydrogen-containing water generating vessel 10 is mounted on the deployed seating plate 65 and is capable of performing an operation of generating hydrogenated water using a power source supplied to the sterilizer 60. That is, when the water-containing water generating vessel 10 is not mounted on the seating plate 65, power is supplied through the self-powered power connection unit (denoted by 29d in FIGS. 5 to 7) In the case of being mounted on a plate, an operation of generating hydrogenated water using a power source supplied to the sterilizer may be performed.

In this way, since the hydrogen-containing water generating vessel 10 can generate hydrogenated water using the power supplied to the sterilizer in a state of being placed on the seating plate 65, it is not necessary to connect a separate power line, .

The seating plate 65 has a structure that can be unfolded so as to seat the water producing container 10. Therefore, it is preferable that the bottom of the seating plate is hinged to the sterilizer body. As a result, the seating plate can have a structure that can be unfolded when the upper side is pulled out.

When the seating plate 65 is detached from the body and is unfolded, the seating plate 65 is held in a horizontal state so that the water generating container can be stably installed. 4, an insertion seat 65a is formed on the upper surface of the seat plate for stably holding the water generating container 10 in a state in which the seat plate 65 is unfolded .

Therefore, the hydrogen-containing water generating vessel 10 is inserted into the insertion seat 65a and can be held in a stable state. At this time, the hydrogen-containing water container inserted and seated in the insertion seat receives power from the sterilizer. Therefore, a protruding terminal 65b, which can be inserted into a terminal insertion groove (denoted by 35a in Fig. 6) formed on the lower surface of the hydrogen generating container 10, is formed in the insertion seating portion 65a .

Therefore, the hydrogen-producing container 10 is inserted into the insertion seat 65a, and the protruding terminal 65b is inserted into the terminal insertion groove 35a formed on the lower surface of the hydrogen- , And the power supplied to the sterilizer may be supplied. Of course, it is a matter of course that the protruding terminal 65b is arranged to be connected to an internal wiring disposed inside the seating plate 65 and inside the body, and to receive power supplied to the sterilizer.

In other words, the seating plate is hinged to the body at the lower side, is kept horizontal when it is released from the body, and is placed on the upper surface in the unfolded state, And a protruding terminal inserted into the terminal insertion groove formed on the lower surface of the hydrogen generating container is formed in the insertion seating portion so that the hydrogen generating operation can be performed using the power supplied to the sterilizer.

As described above, the sterilizing apparatus according to the embodiment of the present invention has a structure in which a hydrogen-producing container can be attached and detached, and a hydrogen-water generating container mounted on the sterilizing device is connected to the sterilizer The operation of generating a hydrogenated water can be performed using the supplied power source.

Since the hydrogen-containing container has a structure that can be mounted on the seating plate 65 of the sterilizer and can be further utilized for portable purposes, it is preferable that the structure is simple and compact.

FIG. 5 is a perspective view of the hydrogen generating container according to the present invention, FIG. 6 is an exploded perspective view of the hydrogen generating container, FIGS. 7 and 8 are detailed exploded perspective views of the electrode module constituting the hydrogen- to be.

5 to 8, a hydrogen-producing container 10 constituting a sterilizing apparatus in which a hydrogen-producing container according to an embodiment of the present invention is detachably attached comprises a support case 29, a support case 29 A fixed lid 17 for stably holding the electrode module, and a container 13 mounted along the outer periphery of the fixed lid 17. The electrode module is disposed in the upper inner accommodating space of the electrode module.

The container (13) forms an internal space for receiving water. The container 13 is coupled to the outer circumference of the fixed lid 17 while being supported by the outermost rim of the upper surface of the receiving case 29. Of course, the container 13 maintains the sealing structure so that the water inside does not escape to the outside or leak. The container (13) is opened upward to fill or discard water for generating hydrogen water into the container, and a lid (11) capable of opening and closing the opened upper side can be coupled.

The lower end of the container 13 is seated and supported at the outermost edge portion on the upper surface of the support case 29, and in this state, it is maintained in a stable state by the decoy 25. That is, the decor 25 is disposed so as to enclose the upper surface of the support case 29 and the lower surface of the container 13 together, so that the container can maintain a stable state on the support case.

As shown in FIGS. 6 to 8, the receiving case 29 has an inner receiving space formed on the upper side thereof. That is, the support case 29 has a structure in which a part of the inner side space of the upper surface is recessed, so that an inner space is provided, and a rim protruding from the inner space along the periphery of the inner space is formed.

The electrode module is disposed in the receiving space of the support case (29). A printed circuit board 33 for supplying power to the electrode module is disposed in an inner space formed below the support case 29. The support case 29 is mounted in a state where the printed circuit board 33 is mounted, Is closed by the lower cover (35).

That is, the receiving case 29 has an inner receiving space formed on the upper side and a printed circuit board 33 mounted on the lower side. An electrode module for generating hydrogen water is disposed in the inner accommodation space, and a lower surface of the support case is closed by a lower cover (35). The lower lid 35 is formed with a terminal insertion groove 35a into which the protruding terminal 65b formed in the seating plate 65 can be inserted.

The electrode module for generating hydrogen water is disposed in the inner space of the base case 29. Specifically, the electrode module is disposed in an inner space of the support case 29, and is electrically connected to the printed circuit board 33 to generate hydrogen water through electrolysis. That is, the electrode module generates hydrogen by electrolyzing water in the internal accommodation space, and consequently, the water in the internal accommodation space and the vessel can be converted into hydrogen containing water.

It is necessary that the electrode module that generates hydrogen water in the internal accommodation space is maintained in a stable state without being released in the internal accommodation space. Therefore, the fixed lid 17 is disposed on the upper side of the electrode module. The fixed lid 17 is fixedly coupled to the support case 29 in a state where the electrode module is held in the internal accommodation space so that the electrode module is not detached.

That is, the fixed lid 17 is disposed on the electrode module, and is coupled to the support case 29 to prevent the electrode module from coming off. Specifically, a plurality of protruding fixing rods 17c are provided on the lower surface of the fixed lid 17, and an insertion hole (not shown) is formed in the upper surface of the supporting case 29, The fixing lid 17 can be fixedly coupled to the support case 29 by inserting the protrusion fixing rod 17c into the insertion hole 29e.

The container 13 is fixed on the outermost edge of the upper surface of the support case 19 along the outer edge of the fixed lid 17 in a state where the fixed lid 17 is fixedly coupled to the support case 29 can do. That is, the container 13 is seated and disposed on the outermost edge of the upper surface of the support case 29 along the outer periphery of the fixed lid 17.

The container 13 is stably coupled on the outermost edge of the support case, and the method can be achieved through various structures. That is, the container may be fixedly coupled to the support case 29 through hook coupling, or a screw may be formed so that the container 13 can be screwed on the support case 29 to maintain stable engagement.

On the other hand, the water in the container 13 can be received down into the receiving space of the receiving case 29. For this purpose, the fixed lid 17 is formed with a plurality of flow holes 17b. In other words, water can flow between the inside of the container and the interior space through the flow hole (17b).

The water introduced into the container 13 may be introduced into the inner receiving space formed in the receiving case 29 through the flow hole 17b formed in the fixed lid 17. [ The water contained in the internal space is electrolyzed by the electrode module, and as a result, hydrogen may be generated.

As shown in FIGS. 6 to 8, the electrode module, which is disposed in the receiving space of the support case 29 to generate hydrogen by electrolyzing water, includes a first connection terminal 31a and a second connection terminal 31b, A first electrode 23 that operates as a cathode or a cathode, a second electrode 19 that operates as a cathode or an anode, and a second electrode 19 that operates as a cathode or an anode. The first electrode 23 and the second electrode 19, And an insulating plate (21) for electrically separating the electrodes.

The connection terminals are composed of two connection terminals, that is, a first connection terminal 31a and a second connection terminal 31b having different protruding heights. Specifically, the connection terminal is protruded to the internal accommodation space while being electrically connected to the printed circuit board 33. The first connection terminal 31a having a relatively low protrusion height and the first connection terminal 31a, And a second connection terminal 31b that is relatively higher than the terminal.

The first connection terminal and the second connection terminal are electrically connected to the printed circuit board 33, one is connected to a positive power source and the other is connected to a negative power source. Hereinafter, it is assumed that a negative power is connected to the first connection terminal 31a and a positive power is connected to the second connection terminal 31b. It is a matter of course that the first connection terminal and the second connection terminal are formed so as to maintain the watertightness in a process of being projected and disposed in the internal accommodation space formed on the upper side of the support case.

The first electrode (23) is disposed above the first connection terminal and the second connection terminal. At this time, the first electrode 23 is disposed so as to be electrically connected to only one of the first connection terminal and the second connection terminal. For example, if the first electrode 23 operates as a negative electrode, the first electrode 23 is disposed so as to be electrically connected to only the first connection terminal.

Specifically, the first electrode 23 is electrically connected to only the first connection terminal 31a having a relatively low protrusion height. Therefore, it is necessary that the first electrode 23 is arranged to be in contact with the upper end of the first connection terminal, but not to the second connection terminal 31b.

Therefore, the first electrode 23 has a mesh-like disk shape through which water can pass, and the first connection terminal can not pass through the portion where the first connection terminal 31a contacts, And a fourth fixing hole 23c is formed in a portion where the second connection terminal 31b is in contact with the second connection terminal so that the second connection terminal can pass through.

As a result, since the first electrode 23 is in contact with the first connection terminal 31a and is not in contact with the second connection terminal 31b, a negative power is supplied from the first connection terminal 31a And can act as a negative electrode. Meanwhile, the fourth fixing hole 23c formed in the first electrode 23 may be formed so as to completely penetrate the second connection terminal 31b in a state where the second connection terminal 31b is not in contact with the first electrode, Is formed larger than the diameter of the connection terminal.

A first fixing hole (23b), which is a minute hole for inserting a fixing screw (not shown) for fixing the first electrode to the first connection terminal, is formed in a contact portion of the first electrode contacting the first connection terminal Is formed. Since the first fixing hole 23b is smaller than the diameter of the first connection terminal, the first connection terminal can not penetrate through the first fixing hole 23b, and the first connection hole can be kept in contact with the first electrode .

The second connection terminal 31b protrudes upward through the fourth fixing hole 23c formed in the first electrode 23 because the protrusion height of the second connection terminal 31b is higher than that of the first connection terminal 31a. Can be maintained.

The second connection terminal 31b protruding upward through the fourth fixing hole 23c formed in the first electrode 23 is electrically connected to the second electrode 19 disposed on the first electrode 23, Lt; / RTI > That is, the second electrode 19 is disposed on the first electrode 23, and is disposed in electrical contact with only the second connection terminal.

Therefore, since the second electrode 19 is electrically connected to only the second connection terminal, a positive power source can be applied to operate as a positive electrode.

As a result, negative power is applied to the first electrode, and positive power is applied to the second electrode, so that water can be electrolyzed between the first electrode and the second electrode, .

Meanwhile, the first electrode 23 and the second electrode 19 need to be electrically separated from each other. Accordingly, an insulating plate 21 is disposed between the first electrode 23 and the second electrode 19. That is, the insulating plate 21 is disposed between the first electrode and the second electrode to electrically insulate the first electrode and the second electrode.

The electrode module thus configured needs to be stably disposed and fixed in the internal accommodation space. Therefore, it is preferable that a support base 29b protruding from the first electrode 23 is formed in the inner space.

The first electrode 23 is seated on the support 29b and the insulating plate 21 is seated on the first electrode and the second electrode 19 is seated on the insulating plate, Can be stably arranged.

On the other hand, it is necessary that the first electrode, the insulating plate and the second electrode arranged as described above are fixed so as not to flow, the first electrode needs to be kept in contact with the first connection terminal, The electrode needs to be held in contact with the second connection terminal.

A pin insertion groove 29c into which a fixing pin (not shown) can be inserted is formed in the central portion of the support base 29b and the first electrode 23, the insulating plate 21, The first pinhole 23a, the second pinhole 21a and the third pinhole 19a may be formed in the center of the first pinhole 19 in order.

When a fixing pin (not shown) of an insulating material is inserted into the pin insertion groove 29c after passing through the third pin hole 19a, the second pin hole 21a, and the first pin hole 23a, , The first electrode, the insulating plate, and the second electrode may remain unremoved.

In addition, the first electrode, the insulating plate, and the second electrode are not rotated or flowed, the first electrode remains electrically connected to only the first connection terminal, and the second electrode is electrically connected to only the second connection terminal It is preferable that an insulative fixing screw is screwed to the first connection terminal and the second connection terminal so as to maintain the electrically connected state.

Specifically, a portion of each of the first terminal, the insulating plate, and the second terminal, which is in line with the first connection terminal 31a in a vertical line, is sequentially provided with a first fixing hole 23b, A second fixing hole 21b and a third fixing hole 19b.

In this structure, after a first fixing screw (not shown) of an insulating material passes through the third fixing hole 19b, the second fixing hole 21b, and the first fixing hole 23b, The first electrode, the insulating plate, and the second electrode can be stably fixed, and further, the first electrode and the first connection terminal can be stably .

In addition, among the portions of the first terminal, the insulating plate, and the second terminal, a fourth fixing hole 23c and a fifth fixing hole (in this order) are formed in the same line on the vertical line with the second connecting terminal 31b 21c and a sixth fixing hole 19c are formed.

In this structure, when a second fixing screw (not shown) of an insulating material passes through the sixth fixing hole 19c and is screwed into a screw hole formed in the first connection terminal 31a, The insulating plate and the second electrode can be stably fixed, and furthermore, the second electrode and the second connection terminal can stably maintain the electrically contact state.

At this time, the fourth fixing hole 23c and the fifth fixing hole 21c are formed on the first electrode and the insulating plate, respectively, and are not electrically contacted to the second connection terminal, Diameter. ≪ / RTI > Therefore, the second fixing screw of the insulating material does not penetrate through the fourth fixing hole 23c and the fifth fixing hole 21c, but passes through the sixth fixing hole 19c, And is screwed into a screw hole formed in the screw hole 31a.

According to the configuration and arrangement structure of the electrode module described above, hydrogen may be generated through the electrolysis process in the internal accommodation space, and the hydrogen water may flow into the container, thereby allowing the user to drink hydrogenated water.

Meanwhile, it is a matter of course that the sterilizing device in which the hydrogen-producing container according to the present invention is detached and removed has a structure capable of maintaining the airtightness so that the hydrogen in the inner space of the container and the inner supporting case is not leaked to the outside.

For example, it is desirable to maintain the airtightness so that the hydrogen water in the inner accommodation space formed in the support case does not leak to the outside. In order to maintain the airtightness between the fixed lid 17 and the supporting case 29, the upper surface of the support case 29, which is in contact with the lower edge of the fixed lid 17, It is preferable that the sealing material 27 be interposed.

That is, a sealing groove 29a is formed along the rim of the lower surface of the fixing lid 17 and the upper surface of the supporting case 29 which is brought into contact with the lower rim of the fixing lid 17, and the first sealing material 27 is inserted into the sealing groove 29a. The hermetically sealed state is maintained when the fixed lid 17 is firmly coupled to the support case 29, so that the hydrogen water in the internal containment space is not leaked to the outside.

The space between the inner lower end of the container 13 and the outer periphery of the fixed lid 17 can be kept air-tight so as to prevent hydrogen from leaking to the outside through the lower end of the container 13.

The lower end 17a of the fixed lid 17 is formed with a lower end 17a of the fixed lid 17 on the outer edge of the upper surface of the fixed lid 17, The second sealing member 15 is inserted.

As described above, the first seal member 27 and the second seal member 15 can be used to maintain the airtightness so that the hydrogen contained in the internal accommodation space and the container does not leak to the outside.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

10: Hydrogen water producing vessel 11: lid
13: container 15: second sealing material
17: Fixing lid 17a: Lower end of the fixing lid
17b: flow hole 19: second electrode
19a: third pinhole 19b: third fixing hole
19c: sixth fixing hole 21: insulating plate
21a: second pinhole 21b: second fixing hole
21c: fifth fixing hole 23: first electrode
23a: first pinhole 23b: first fixing hole
23c: fourth fixing hole 25: deco
27: first seal member 29: support case
29a: sealing groove 29b:
29c: Pin insertion groove 29d: Power connection
31a: first connection terminal 31b: second connection terminal
33: printed circuit board 35: lower cover
35a: terminal insertion groove 60: body
61a: Module insertion portion 61b: Module seating portion
61c: seat plate mounting groove 63: sterilizing module
65: seating plate 65a:
65b: protruding terminal 67: power supply line
100: sterilizing device in which the water producing container is attached and detached

Claims (6)

A sterilizing module that is detachably coupled to a front portion of the body and is contained in water in a separated state to sterilize water, and a seat that is inserted into a rear portion of the body and is detached from the body by hinging, A sterilizer comprising a plate;
Wherein the sterilizing device is installed on the spreading plate and comprises a water generating container for generating hydrogen water by using a power source supplied to the sterilizing device.
The method according to claim 1,
Wherein the bottom of the seating plate is hinged to the body and is held in a horizontal state when the body is released from the body and an insertion seat is formed on an upper surface of the seating plate to allow the water- Wherein the insertion seat portion is formed with a protruding terminal to be inserted into and connected to a terminal insertion groove formed in a lower surface of the hydrogen-producing container.
The method of claim 2,
And a printed circuit board mounted on the printed circuit board, wherein the printed circuit board is electrically connected to the printed circuit board and electrically connected to the printed circuit board, A fixing cover which is disposed on the electrode module and is coupled to the supporting case to prevent the electrode module from being separated from the supporting frame; And a container in which the container is placed and placed.
The method of claim 3,
Wherein the electrode module is protruded from the inner housing space in a state of being electrically connected to the printed circuit board and includes a first connection terminal having a low protrusion height and a second connection terminal having a high protrusion height, A second electrode disposed above the first electrode and electrically connected to only the second connection terminal, and a second electrode disposed interposed between the first electrode and the second electrode, And an insulating plate for electrically insulating the first electrode and the second electrode from each other.
The method of claim 3,
Wherein a first sealing material is interposed on an upper surface of the rim of the receiving case which is in contact with a lower surface of the fixed lid to maintain airtightness between the lid and the receiving case. Sterilizing device.
The method of claim 3,
Wherein a bottom end portion is formed at an outer edge of the top surface of the fixed lid and a second sealing material is inserted into the bottom end portion of the fixed lid to maintain airtightness between the fixed lid and the container. Device.

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