KR101433131B1 - Unit for creating sterilized water having electrode plate support bar for maintaining distance between electrode plates - Google Patents

Abstract

The present invention relates to a sterilizing water producing unit having a pole support rod for maintaining an interval between electrode plates, and in particular, a sterilizing water producing unit for generating sterilizing water through underwater discharge from feed water, comprising a pair of first electrode plates and a second Each of the first frame and the second frame located outside the electrode plate includes at least one first electrode plate supporting rod passing through the first electrode plate and supporting the second electrode plate and a second electrode plate passing through the second electrode plate, The gap between the electrode plates can be maintained constant without an insulating separator, and the sterilizing water generating unit having a simpler structure can be easily produced at a low cost There is an effect.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sterilizing water generating unit,

The present invention relates to a sterilizing water producing unit having a pole plate support rod for holding a sterilizing water, and more particularly to a sterilizing water producing unit for sterilizing water, And a sterilizing water generating unit having a simpler structure can be produced simply and at low cost by using the sterilizing water producing unit.

Recently, environmental pollution such as allergies and atopy are increasing due to pollution of air or soil, and accordingly interest in health is increasing day by day as interest in well-being increases.

In particular, tap water is the most commonly used water supply equipment such as washing machines, bidets, dishwashers, and water purifiers, and tap water may contain bacteria, viruses, bacteria, and the like. Therefore, it may adversely affect clothes, dishes or human skin that come into contact with tap water, and may cause problems such as deterioration of hygiene and hygiene.

In order to solve such a problem, a sterilizing water producing device for supplying sterilizing water by sterilizing tap water has been developed. Conventionally, there has been an apparatus using diaphragm water between an anode and a cathode in a water tank to mix water and brine to make dilute saline water and electrolysis to obtain acid water as sterilization water. However, such a device is not only complicated in structure, but also difficult to supply because the cost of sterilization water production per hour is high. Accordingly, there is an increasing need for a sterilizing water producing apparatus that is simple in structure and easy to manufacture, which can easily generate sterilized water for hygiene and safety of the user.

In this connection, Korean Patent No. 10-0927445 (entitled " Sterilizing Water Generation Unit, Sterilizing Water Producing Cartridge Including Sterilization Water Producing Cartridge and Sterilization Washing Machine Including Sterilization Water Producing Unit ") comprises a pair of electrode plates each having a plurality of elongated slots formed therein, And a hollow electrode separator plate spaced apart from the pair of electrode plates to separate the pair of electrode plates from each other; A pair of electrodes for applying different electrodes to the pair of electrode plates; And a frame disposed at one side of the electrode plate module and having an electrode rod accommodating portion for accommodating the pair of electrode rods.

However, in such an electrode plate module, an insulating electrode plate for separating the electrode plates from each other must be included so that the pair of electrode plates are not short-circuited. Therefore, since the gap between the electrode plates can not be made closer to each other, the sterilizing water generating efficiency can not be adjusted to the maximum, and accordingly, the size of the electrode plate module becomes large, Lt; / RTI >

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a sterilizing water generating unit capable of maintaining a constant interval between electrode plates without an insulating separator.

In addition, the present invention can maximize the sterilizing water generating efficiency by making the gap between the electrode plates more closely through the sterilizing water producing unit without the insulating separator, thereby reducing the size of the electrode plate module, Thereby simplifying the production of sterilization water generating devices with a simpler structure at low cost.

According to an aspect of the present invention, there is provided a sterilizing water producing unit for generating sterilizing water through underwater discharge from feed water, comprising: a pair of plate-like first electrode plates and a second electrode plate; And a first frame and a second frame which are disposed outside the first electrode plate and the second electrode plate, and the first frame includes at least one first electrode plate supporting the second electrode plate through the first electrode plate, Wherein the second frame has one or more second pole support rods passing through the second electrode plate to support the first electrode plate, the first electrode plate having a first support rod And the second electrode plate has a second support bar through hole through which the second electrode plate support bar penetrates, and the closed first frame and the second frame each include an inlet port and an outlet port through which water is introduced and discharged, respectively, And the first and second pole support rods are respectively formed in the middle regions of the first frame and the second frame, and the first and second support bar through holes are also formed in the center of the first and second pole plates, In the middle of In the station, a sterilization number generating unit, characterized in that the first electrode plate or formed in a point symmetric or line-symmetric positions to each other from the center of the second electrode plate.

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At least one of the first support bar through-hole and the second support bar through-hole may be two or more.

The first support bar through-hole may be formed at a position between two or more second support bar through-holes, or the second support bar through-hole may be formed at a position between two or more first support bar through-holes.

In addition, the first frame and the second frame may have a power supply hole passing through the power supply line connected to the first and second electrode plates in the center region.

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The first frame and the second frame may have rubber-O-ring receptacles for packing provided in the vicinity of the power supply holes.

In addition, the first electrode plate and the second electrode plate may have horizontally extended electrode connection portions.

The first electrode plate and the second electrode plate having the electrode connection portions may have the same shape, and the electrode connection portions of the first electrode plate and the second electrode plate may be formed on the same side of the first electrode plate and the second electrode plate, So as to face each other.

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The details of other embodiments are included in the detailed description and drawings.

According to the present invention, each of the first frame plate and the second frame located outside the pair of first electrode plates and the second electrode plate includes at least one first pole plate support bar supporting the second electrode plate through the first electrode plate, , And a sterilizing water generating unit capable of maintaining a constant interval between the electrode plates without using an insulating separator by having one or more second electrode plate supporting rods passing through the second electrode plate and supporting the first electrode plate It is effective.

In addition, the present invention can maximize the sterilizing water generating efficiency by making the gap between the electrode plates more closely through the sterilizing water producing unit without the insulating separator, thereby reducing the size of the electrode plate module, There is an effect that the sterilizing water generating device having a simpler structure can be simply produced at low cost.

1 is an exploded perspective view of a sterilizing water producing unit according to a preferred embodiment of the present invention,
2 is an assembled cross-sectional view of a sterilizing water producing unit according to a preferred embodiment of the present invention,
3 is an assembled sectional view of a sterilizing water producing unit in which a plurality of electrode plates are stacked according to a preferred embodiment of the present invention,
4 is an exploded perspective view of a closed sterilizing water generating unit having a power supply hole according to another preferred embodiment of the present invention,
5 is an assembly sectional view for explaining a power supply hole and a rubber O-ring receiving portion for packing in the sterilizing water generating unit of FIG. 4,
FIG. 6 is an assembled sectional view for explaining a state in which the electrode plate and the frame are closely contacted in the sterilizing water generating unit of FIG. 4,
7 is an exploded perspective view of a sterilizing water producing unit having an electrode connection portion according to another preferred embodiment of the present invention,
8 is an assembled cross-sectional view for explaining an electrode connection portion in the sterilizing water generating unit of FIG. 7,
9 is an exploded perspective view showing an example of an electrode plate having electrode connection portions according to the present invention,
10 is an exploded perspective view showing an example of an electrode plate having an electrode connection portion and a slot according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The present invention relates to a sterilizing water producing unit (1) for generating sterilizing water through underwater discharge from feed water. That is, the present invention basically produces a plasma discharge in water using an underwater discharge which makes water into an underwater plasma ion state, and generates anions (O ^- , O ₃ ^- , OH ^- , HOCl and H ₂ O ₂ ) To sterilize various bacteria, viruses, bacteria and the like in the water. The sterilizing water producing unit 1 may be a sterilizing water producing cartridge for discharging water supplied from a water receiving portion to generate sterilizing water and discharging the sterilizing water to an outlet portion.

A sterilizing water producing unit (1) according to the present invention comprises a pair of first electrode plates (10) and a second electrode plate (20); And a first frame 100 and a second frame 200 located outside the first and second electrode plates. The pair of electrode plates 10, 20 and the frame 100, 200 may comprise any type known in the art. That is, the electrode plates 10 and 20 may have a plurality of slots through which water flows, and may have a flat plate-like structure in which no slots are formed. In addition, the frames 100 and 200 may or may not have hollows 101 therein.

Hereinafter, an embodiment of the present invention will be described in which the electrode plates 10 and 20 have slots, the frames 100 and 200 have a hollow 101, and in another embodiment of the present invention, (10, 20) is a flat plate type having no slot and the frame (100, 200) is a closed type structure having no hollow.

Fig. 1 is an exploded perspective view of a sterilizing water producing unit 1 according to a preferred embodiment of the present invention, Fig. 2 is an assembly sectional view of a sterilizing water producing unit 1 according to a preferred embodiment of the present invention, Fig. 3 Sectional view of a sterilizing water producing unit 1 in which a plurality of electrode plates 10 and 20 are stacked according to a preferred embodiment of the present invention.

In the present invention shown in the figure, the electrode plates 10 and 20 have slots and the frame 100 and 200 have a cavity 101.

The electrode plates 10 and 20 may be composed of a pair of negative electrode plates 10 and a positive electrode plate 20 for discharging water underwater. Therefore, by decomposing water molecules using the principle of underwater discharge, it becomes a mechanism to have sterilizing power. The electrode plates 10 and 20 are made of titanium which is harmless to the human body and has excellent corrosion resistance, acid resistance, heat resistance and mechanical tensile strength, and is made of platinum group metals such as platinum, iridium, palladium, For example, by coating or vapor deposition. In addition, the manufacturing cost may be reduced by depositing titanium on a general steel plate and coating or vapor depositing the platinum group material.

In addition, the electrode plates 10 and 20 may include terminals supplied with power from the outside. For example, as shown in FIG. 1, different electrodes may be applied to form an electrode It is also possible to have a pair of electrode rods 3 for applying a voltage. Around the electrode plates 10 and 20 are formed circumferential portions having no slots formed therein. The pair of electrode bores 13a and 13b, through which the electrode 3 for applying an electrode to the electrode plate passes, And electrode plate fixing grooves 12 and 22 for fixing the electrode plates 10 and 20, respectively.

The first frame 100 and the second frame 200 are positioned outside the first electrode plate 10 and the second electrode plate 20 to fix the electrode plates 10 and 20 do. The frames 100 and 200 can receive and support the electrode 3. [ The shape and material of the frames 100 and 200 include everything known in the art. For example, as shown in FIG. 1, the frames 100 and 200 have a ring shape with a hollow 101 formed therein, 130 and 230 and the fixing portions 120 and 220 are formed. An electrode rod insertion hole for inserting an electrode rod is formed in the electrode rod receiving portions 130 and 230. A fixing member 120 for fixing the electrode plates 10 and 20 to the frames 100 and 200 is formed on the fixing portions 120 and 220, (2) is inserted into the fixing member groove. The shape of the electrode rod 3 is not particularly limited, but it is preferable that the electrode rod 3 is in the form of a screw which is easy to insert, combine, and disassemble.

In the sterilization water producing unit (1) as described above, the first frame (100) includes at least one first electrode plate (20) supporting the second electrode plate (20) through the first electrode plate And the second frame 200 has one or more second electrode plate support rods 211 which penetrate the second electrode plate 20 and support the first electrode plate 10 . The first electrode plate 10 has a first support bar through hole 11 through which the first electrode plate support rod 111 passes and the second electrode plate 20 is connected to the second electrode plate support rod 211 And a second support bar through-hole 21 penetrating through the second support bar.

The first electrode plate support rod 111 and the second electrode plate support rod 211 are formed at positions corresponding to the first and second support bar through holes 11 and 21, respectively, for penetrating the bar.

2, the first pole plate support bar 111 formed on the first frame 100 passes through the first support pole through hole 11 of the first electrode plate 10 and is inserted into the second electrode plate 20 The second electrode plate support rods 211 formed on the second frame 200 support the second electrode plate 20 so that the second electrode plate 20 is not moved or bent toward the first electrode plate 10 while being in contact with the second electrode plate 20, The first electrode plate 10 is supported by the second electrode plate 20 so that the first electrode plate 10 does not move or bend toward the second electrode plate 20 while being in contact with the first electrode plate 10 through the second support bar through- .

The gap between the electrode plates 10 and 20 can be maintained at a constant level through the electrode plate support rods 111 and 211 and the support rod through holes 11 and 21 without using the conventional isolation plate. Therefore, the present invention can maximize the sterilizing water generating efficiency by making the distance between the electrode plates 10, 20 more closely through the sterilizing water producing unit 1 without the insulating separator, The size of the sterilizing water can be reduced, and further, the manufacturing process can be simplified, so that a sterilizing water generating device with a simpler structure can be produced with low cost and in a simple manner.

1, the first frame 100 and / or the second frame 200 are arranged in a circumferential direction to form the pole plate support rods 111 and 211 on the frames 100 and 200, A first pole support bar 111 and / or a second pole support bar 211 may be formed on the frame supports 110 and 210, with one or more frame supports 110 and 210 extending from one side to the other .

In this sterilizing water producing unit 1, as shown in Fig. 3, a plurality of electrode plates 10 ', 20', 10 '', 20 "may be laminated. In this case, it is preferable that the center electrode plates 20 'and 10' 'have a support bar through-hole through which both the first pole support bar 111 and the second pole support bar 211 pass, It is possible to further include a separate means for supporting and fixing the electrode plates 20 ', 10 " positioned in the middle.

The first support bar through-hole 11 and the second support bar through-hole 21 are preferably formed symmetrically with respect to the center of the first electrode plate 20 and / or the second electrode plate 20 , And at least one of the first support bar penetration hole (11) and the second support bar penetration hole (21) is more preferably two or more. This will be described in more detail in the following embodiments.

4 is an exploded perspective view of a closed sterilizing water producing unit 1 having power supply holes 140 and 240 according to another preferred embodiment of the present invention and FIG. 5 is an exploded perspective view of the sterilizing water generating unit 1 of FIG. 6 is an assembled sectional view for explaining the supply holes 140 and 240 and the packing rubber o-ring accommodating portions 141 and 241. Fig. 6 is a sectional view of the sterilizing water producing unit 1 of Fig. (100, 200) are in close contact with each other.

In the present invention, the electrode plates 10 and 20 are in the form of a flat plate having no slots, and the frames 100 and 200 are of a closed structure having no hollow.

4, in the case where the electrode plates 10 and 20 have a planar structure, water flows around the electrode plates 10 and 20 in the course of flowing from the water inlet 5 to the water outlet 4, Underwater discharge occurs while turning.

Also in this embodiment of the present invention, the present invention is characterized by having the pole plate support bars 111 and 211 and the support bar through holes 11 and 21 as described above. Accordingly, all of the above-described embodiments can be equally applied to the present embodiment.

In particular, the number of the first support rod through holes 11 and / or the second support bar through holes 21 may be two or more, and the first and second pole support rods 111 and 211 ) Can also be two or more. If the number of the electrode support rods 111 and 211 and the number of the support bar through holes 11 and 21 is two or more, it is preferable that the distance between the electrode plates 10 and 20 can be more firmly supported.

When the first support bar through-hole 11 and the second support bar through-hole 21 are formed at symmetrical positions with respect to the center of the first electrode plate 10 or the second electrode plate 20, (10, 20) can be supported more vertically and / or laterally in a more balanced manner. For example, as shown in FIG. 4, the first support bar through-hole 11b and the second support bar through-hole 21b may be formed to be opposed to each other with respect to the center of the first electrode plate 10 or the second electrode plate 20 Symmetrically or line-symmetrically. The first electrode plate support bar 111 and the second electrode plate support bar 211 corresponding to the first support bar through hole 11 and the second support bar through hole 21 are also connected to the first electrode plate 10 or the second electrode plate 20 at a position symmetrical to each other.

4, when the first support bar through-hole 11c of the present invention is located between two or more second support bar through-holes 21c, or when the second support bar through-hole 21a is positioned between two or more It is preferable that the electrode plates 10 and 20 can be supported more firmly and balancedly in a specific region even when they are located between the first support bar through holes 11a. The pole plate support bars 111 and 211 corresponding to the support bar through holes 11 and 21 may also be positioned between the opposite pole plate support bars 211 and 111.

The frames 100 and 200 of the present invention shown in FIGS. 4 to 6 are of a closed type having no hollow, wherein the frames 100 and 200 are connected to a power supply line (not shown) connected to the electrode plates 10 and 20 It is possible to have the power supply holes 140 and 240 penetrating therethrough.

The shape or size or position of the power supply holes 140 and 240 is not particularly limited and is suitably larger than the diameter of the power supply line 6. The power supply line 6 connected to the external power supply may be in contact with one surface of the electrode plates 10 and 20 through the power supply holes 140 and 240 and may be connected through the spot welding 7.

In this case, raw water and / or sterilization water in the sterilization water producing unit 1 may be discharged to the outside through the power supply holes 140 and 240. To prevent this, the frames 100 and 200 of the present invention A rubber O-ring 142 or 242 for packing provided inside the periphery of the power supply holes 140 and 240 or a receiving part 141 or 241 thereof. The rubber O-rings 142 and 242 for packing are seated on the rubber O-ring receiving portions 141 and 241 for packing so as to be in close contact with the back surface of the electrode plates 10 and 20, thereby preventing the outflow of raw water and / There is a number.

7 is an exploded perspective view of a sterilizing water producing unit 1 having electrode connecting portions 13 and 23 according to another preferred embodiment of the present invention and FIG. 8 is an exploded perspective view of the sterilizing water producing unit 1 of FIG. 7, (13, 23).

In the present invention shown in FIG. 1, electrode connection portions 13 and 23 for supplying power to the first electrode plate 10 and the second electrode plate 20 are formed. That is, in the present invention, it is preferable that electrode connection portions 13 and 23 for applying power to each of the positive electrode plates and the positive electrode plates 10 and 20 to cause underwater discharge between the positive electrode plates and the positive electrode plates are connected. For this, the electrode connection portions 13 and 23 are connected to one side or the other side of the electrode plates 10 and 20, and may have a shape that can be connected to an external power source so as to receive power from the outside. For example, the electrode connection portions 13 and 23 include all the structures that penetrate the outside of the sterilizing water producing unit 1 according to the present invention or are connected to the outside. The positions at which the electrode connection portions 13 and 23 are connected to the electrode plates 10 and 20 are not particularly limited and may be formed at any positions of the electrode plates 10 and 20. It is preferable that the two electrode connection portions 13 and 23 are formed at different positions of the electrode plates 10 and 20 so as not to contact both the negative electrode plates 10 and 20.

More preferably, the electrode connection portions 13 and 23 may be formed at positions corresponding to each other in the negative electrode plate 10 and the positive electrode plate 20, as shown in FIG. The electrode plates 10 and 20 preferably have electrode connection portions 13 and 23 formed at one end of the sterilizing water generating unit 10 and bent in the same direction at different positions. That is, when the electrode connection portions 13 and 23 are formed at positions corresponding to each other at both ends of the negative electrode plate and the positive electrode plate 10 or 20 or at different positions at one end thereof, Or to connect external power to the device. In addition, if the electrode connection portions 13 and 23 are formed to be bent in the same direction, external power can be supplied from any direction of the sterilizing water generating cartridge, thereby enabling various designs according to the manufacturer's intention and the form of the product .

FIG. 9 is an exploded perspective view showing an example of electrode plates 10 and 20 having electrode connection portions 13 and 23 according to the present invention. FIG. 10 is an exploded perspective view showing electrode connection portions 13 and 23 and slots 14 and 23, 24 having the electrode plates 10, 20, respectively.

The pair of electrode plates 10 and 20 according to the present invention shown here have the same shape. Here, the same shape means that the shape is completely the same, including the positions of the electrode connection portions 13 and 23 connected to the electrode plates 10 and 20 and the positions of the support bar through holes 11 and 21 formed therein . That is, the first electrode plate 10 is used as the second electrode plate 20, and the second electrode plate 20 is used as the first electrode plate 10. Therefore, as shown in FIG. 9, the second electrode plate 20 can be used by rotating 180 degrees so that the left and right sides of the first electrode plate 10 are reversed. As described above, when the electrode plates 10 and 20 having the same shape are rotated back and forth so as to mirror symmetrically from left and right, they can be used as a pair of electrode plates 10 and 20 corresponding to each other as shown in Fig.

7, the electrode plates 10 and 20 may be provided at the same positions from both ends of the electrode plates 10 and 20. Alternatively, as shown in FIG. 9, 20 at their opposite ends with respect to the center thereof. The electrode connection portions 13 and 23 and the support bar through holes 11 and 21 may be formed at any positions in the electrode plates 10 and 20. However, Which are formed on one side or on one surface, which are not the centers of the first and second substrates 10 and 20, but are spaced apart therefrom.

The first electrode plate 10 and the second electrode plate 20 having the electrode connection portions 13 and 23 have slots 14 and 24 in the same direction and the directions of the slots 14 and 24 are It is also possible to stack them so as to cross each other. 10, when the first electrode plate 10 having the first support bar through-hole 11, the first electrode connection part 13 and the first slot 14 is rotated 180 degrees back and forth, The first electrode plate 10 and the second electrode plate 20 may be a supporting member through hole 21 and a second electrode plate 20 having a second electrode connecting portion 23 and a second slot 24, , It is possible to cross the directions of the slots 14 and 24 with each other.

Since the present invention can be used both as the positive electrode plate 10 and the negative electrode plate 20 by using the electrode plates 10 and 20 having one shape, it is possible to simplify the manufacturing process have.

In addition, it is possible that the sterilizing water producing unit 1 according to the present invention further includes a temperature adjusting means 30 capable of controlling the temperature of the sterilizing water producing unit 1. [

That is, the temperature adjusting means 30 can raise or lower the temperature of the electrode plate 2, the water or the sterilizing water contained in the sterilizing water producing unit 10. [

The temperature regulating means 30 includes everything having a function of sensing the temperature by the current supplied from the outside or adjusting the temperature of the surroundings to a high or low level. For example, a hot wire or the like provided inside or outside the electrode plates 10 and 20 or the frames 100 and 200 may be heated or lowered by the external power source .

The plasma generated between the electrode plates 10 and 20 can be influenced by the temperature of the incoming water, the temperature of the electrode plate, or the ambient environment temperature. In the present invention, It is possible to set the optimum temperature at which the plasma most effectively occurs.

Further, the degree of water or bubbles formed on the electrode plates 10 and 20 may vary depending on the temperature of the electrode plates 10 and 20 themselves. In the present invention, By raising the temperature of the electrode plates 10 and 20, the phenomenon of forming water or bubbles can be minimized.

As described above, the sterilizing water producing unit 1 according to the present invention includes the electrode plates 10 and 20 and the frames 100 and 200, and the frames 100 and 200 have the pole plate supporting bars 111 and 211 The sterilizing water producing unit 1 may further include a separate base member and / or a cover member for supporting the electrode plates 10 and 20.

In addition, the base member and / or the cover member may be provided with an electrode connection through hole for penetrating the electrode connection portions (13, 23).

Furthermore, the present invention may be a sterilizing water producing cartridge or a sterilizing water producing apparatus including the sterilizing water producing unit 1 as described above, and it may include a flow guiding member for guiding water and / Case, and the like.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes may be made.

1: sterilization water generating unit
2: Fixing member
3: Electrode
4:
5: Inlet
6: Power supply line
7: Spot welding
10: first electrode plate
11: first support bar through hole
12, 22: Plate fixing groove
13, 23: electrode connection portion
14, 24: Slot
20: second electrode plate
21: second support bar penetration hole
30: Temperature control means
100: first frame
101: hollow
110, 210: frame support
111: first pole plate support bar
120, 220:
130, and 230:
140, 240: Power supply hole
142, 242: Rubber O-ring for packing
200: second frame
211: second pole plate support bar
241: Rubber O-ring for packing

Claims (11)

A sterilizing water producing unit for generating sterilizing water through underwater discharge from feed water,
A pair of planar first electrode plates and second electrode plates; And
And a first frame and a second frame which are disposed outside the first electrode plate and the second electrode plate,
Wherein the first frame has at least one first electrode plate support rod penetrating through the first electrode plate to support the second electrode plate and the second frame includes at least one electrode plate supporting the first electrode plate through the second electrode plate, 2-pole plate supporting rod,
Wherein the first electrode plate has a first support bar through hole through which the first electrode plate support bar passes and the second electrode plate has a second support bar through hole through which the second electrode plate support bar passes,
Wherein the closed first frame and the second frame each include an inlet port and an outlet port through which water is introduced and discharged,
Wherein the first and second pole plate support rods are formed in the middle region of the first frame and the second frame, respectively,
The first and second support bar penetration holes are also symmetric or line-symmetric with respect to the center of the first electrode plate or the second electrode plate in the center region of the first electrode plate and the second electrode plate, The sterilizing water producing unit being formed at a position where the sterilizing water is generated.
delete The method according to claim 1,
And at least one of the first support bar through-hole and the second support bar through-hole is two or more.
The method of claim 3,
Wherein the first support bar through hole is formed at a position between two or more second support bar through holes or the second support bar through hole is formed at a position between two or more first support bar through holes. .
delete The method according to claim 1,
Wherein the first frame and the second frame have power supply holes through which power supply lines connected to the first electrode plate and the second electrode plate pass, in the center region.
The method according to claim 6,
Wherein the first frame and the second frame have rubber-O-ring accommodating portions for packing provided in the vicinity of the power supply holes.
The method according to claim 1,
Wherein the pair of first electrode plates and the second electrode plate each have horizontally elongated electrode connection portions.
9. The method of claim 8,
The first electrode plate and the second electrode plate having the electrode connection portion have the same shape,
Wherein the first electrode plate and the second electrode plate are stacked such that electrode connection portions thereof face each other at one end of the same side of the first electrode plate and the second electrode plate.
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