KR20180024980A - Apparatus for producing sterilizing water using metallic ion - Google Patents

Abstract

The present invention relates to a sterilization water generating device using metal ions which is capable of discharging supplied water converted into sterilization water of a sterilization function depending on dissolution of the metal ions regardless of supply condition of water such as a water amount or water pressure and maximally suppressing a release action of the metal ions and preventing abrasion by separating a touch part, which applies current to an ionizing member, from water; and includes a plurality of efficient simultaneous connection structures which stably apply the current to power and are close to an one-touch method with the power. The sterilization water generating device using the metal ions comprises: a sterilization tank; a first ionizing member; and a second ionizing member. An internal space of the sterilization tank is divided into an upper space and a lower space by using a wall. The wall connects the upper space and the lower space to each other. An inlet is formed in a lower side of the wall. An outlet is formed in an upper side of the wall. The first ionizing member is installed in the lower space of the sterilization tank; receives the power of a method for repeatedly converting polarities of a positive electrode and a negative electrode depending on a predetermined time; and provides a function for discharging the metal ions. The second ionizing member is installed in the lower space of the sterilization tank; receives the power of the method for repeatedly converting the polarities of the positive electrode and the negative electrode depending on the predetermined time in a condition of providing the polarities which are opposite to the polarities applied to the first ionizing member; and provides the function for discharging the metal ions.

Description

[0001] The present invention relates to a sterilizing water producing apparatus using metal ions,

INDUSTRIAL APPLICABILITY According to the present invention, regardless of the amount of water to be introduced or the supply condition of water such as water pressure, the supplied water can be discharged in a state of being converted into sterilized water having a sterilizing function according to dissolution of metal ions, The portion is isolated from the water so that the discharge action of the metal ion is suppressed as much as possible, so that the abrasion can be prevented. At the same time, sterilization with metal ions having an efficient simultaneous connection structure close to the power source and one- Water generating device.

Generally, a sterilization method or sterilization water generating principle using metal ions is to dissolve metal ions of silver (Ag) or copper (Cu) in water, thereby enabling the sterilizing ability of metal ions to be exerted in the water, Continuity of residual sterilization effect, sterilization unchanged even when mixed with other substances, sterilization of sterilization, odorless, non-toxic, economical installation cost and low maintenance cost, non-induction of piping corrosion, pathogenic bacteria, fungi and viruses, And does not evaporate when heated.

On the other hand, as can be seen from the above description, the metal ion sterilizing apparatus is a sterilizing apparatus in which the ionization member for releasing metal ions is discharged in a state of being immersed in water, and the ionization member is completely immersed in water, The release efficiency of metal ions is high.

Accordingly, water is passed through the ionizing member in a state in which the ionizing member is not sufficiently immersed in water due to a small amount of water to be supplied or a low water pressure, or the ionizing member is not electrically connected, A phenomenon in which water is passed through in a state where the water has passed may occur.

In addition, the contact for energizing the ionizing member is also exposed to the water together with the ionizing member, so that the contact portion is also worn out together with the ionizing member while discharging the metal ion, so that the contact point of the contact portion And the stable operation of the metal ion sterilizer could not be performed due to defects.

Korean Patent No. 10-1239206 (Announcement on March 31, 2013), " Metal ion sterilizing device " Korean Patent Publication No. 10-2016-0071733 (published on June 22, 2016), "Ultrasonic Cleaning Type Metal Ion Sterilizer"

The embodiment of the present invention uses a metal ion that allows the supplied water to be discharged in a state of being converted into sterilized water having sterilization function due to the dissolution of the metal ion irrespective of the amount of introduced water or the supply condition of water such as water pressure A sterilizing water producing apparatus is provided.

In addition, in the embodiment of the present invention, the contact portion for energizing the ionizing member is isolated from the water so that the discharge action of the metal ion is suppressed to the utmost, so that the abrasion can be prevented. The present invention also provides an apparatus for generating sterilizing water using metal ions, wherein the plurality of contact points have an efficient connection structure close to a power source and a one-touch method.

In addition, embodiments of the present invention are directed to a mother body including an outer case, a power supply part including a rectifying part of an external power supply, and the like, in which mutually opposing directions with respect to the mother body are reversed The present invention also provides a sterilizing water producing device using metal ions which can be freely changed in any direction.

In the apparatus for generating sterilizing water using metal ions according to the embodiment of the present invention, the inner space is divided into an upper space and a lower space by barrier ribs, and the barrier rib communicates the upper space and the lower space. A sterilizing tank in which a water inlet is formed on the lower side and a water outlet is formed on the upper side of the partition wall; a power source is installed in the lower space of the sterilizing tank and the polarity switching between the positive electrode and the negative electrode is repeated according to a predetermined time; A first ionizing member disposed in the lower space of the sterilizing tank and having a polarity opposite to that of the polarity applied to the first ionizing member, And may include a second ionization member which is applied with power in a repetitive manner and discharges metal ions .

In addition, the sterilizing tank may have a region through which the upper space and the lower space communicate with each other in the direction of the inner surface opposite to the one inner surface on which the inlet is formed.

Further, it is preferable that the partition wall extending from the inner surface of the sterilizing tank on which the inlet is formed to the opposite inner surface is spaced apart from the inner surface in the extending direction to form a connection hole connecting the upper space and the lower space, And a through hole for connecting the upper space and the lower space may be formed at the extending end of the partition wall extending from one inner surface of the inlet port to the opposite inner surface.

The inlet and outlet may be formed on one side of the sterilizing bath in the same direction.

In addition, one or both of the first ionizing member and the second ionizing member may have one or more contact protrusions on either or both of the upper surface and the lower surface of the sterilizing tank, The contact protrusions are formed to have a width smaller than the thickness of the upper surface or the lower surface of the first ionizing member or the second ionizing member and the contact protrusions of the first ionizing member or the second ionizing member are coupled to the sterilizing tank in a sliding manner And a projection sliding groove for covering the lower space may be formed on one side or both sides of the lower space.

In addition, the sterilizing tank may include an electrode insertion hole extending through the projection sliding groove and communicating with the electrode insertion hole, and an electrode connection hole communicating with the electrode insertion hole may be formed. In addition, An electrode rod that is inserted into the electrode insertion hole and is in contact with the contact protrusion coupled to the projection sliding groove, and an electrode connection terminal inserted into the electrode insertion hole and contacting the electrode rod in the electrode insertion hole, And power is applied to the electrode connection terminal so that polarity switching between the positive electrode and the negative electrode is repeated according to a predetermined time.

The electrode insertion holes are formed to connect the upper and lower protrusion sliding grooves. The electrode rods include first and second electrode rods respectively inserted into the upper and lower protrusion sliding grooves, and the first and second electrode rods, And a connecting rod connecting one end of the two electrodes in the longitudinal direction. The first and second electrode rods and the connecting rod may be inserted in a corresponding region of the electrode insertion hole.

In addition, the sterilizing tank may include guide protrusions that can change the directions of the inlet and outlet ports in opposite directions without causing the vertical disposition of the sterilizing tank when the sterilizing tank is coupled to the main body, A guide groove may be formed.

According to the embodiment of the present invention, the water introduced into the sterilizing water producing device using the metal ions is converted into sterilized water having sterilization function due to the dissolution of metal ions, regardless of the supply amount or the supply condition such as water pressure, .

In addition, the disinfecting water generating device using metal ions separates the contact point for energizing the ionizing member from the water so that the metal ion release at the contact point is suppressed or prevented as much as possible, thereby preventing the wear of the ionizing member. The contact point is formed as a plurality of contacts for stable energization and has an efficient connection structure close to the power source and the one-touch method, so that the contact point can be connected to the power source through an easy operation.

In addition, the sterilizing water producing device using metal ions may be applied to a mother body including an outer case, a power supply part including a rectifying part of an external power supply, and the like, It can be freely changed in either of the opposite directions.

In addition, it is applied to all fields for sterilizing water sterilization and sterilization function such as agricultural and horticultural use, household use, medical use, restaurant, footbath and so on, and produces very good sterilization function and productivity of the sterilization water And provides a greatly improving effect.

1 is a perspective view showing a sterilizing water producing device using metal ions according to an embodiment of the present invention;
2 is a perspective view of a disinfecting water producing device using metal ions according to an embodiment of the present invention,
FIG. 3 is a perspective view showing the state before the ionizing member is bonded to the sterilization tank in the sterilizing water producing apparatus using metal ions according to the embodiment of the present invention. FIG.
FIG. 4 is a perspective view showing the state after the ionizing member is bonded to the sterilization tank in the sterilizing water producing device using metal ions according to the embodiment of the present invention. FIG.
5 is a sectional view taken along line AA in Fig. 1
6 is a sectional view taken along the line BB in Fig. 1
7 and 8 are perspective views showing a coupling structure of a sterilizing water producing device using metal ions according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components in each described embodiment may be varied without departing from the spirit and scope of the present invention.

The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term, not on the name of a simple term, but on the entire contents of the present invention.

Whenever an element is referred to as " including " an element throughout the description, it is to be understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. In addition, the term " "... Module " or the like means a unit for processing at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software.

1 to 8, an apparatus for generating sterilizing water using metal ions according to an embodiment of the present invention will be described.

FIG. 1 is a perspective view showing a sterilizing water producing device using metal ions according to an embodiment of the present invention. FIG. 2 is a perspective view showing a decomposed sterilizing water producing device using metal ions according to an embodiment of the present invention. to be. And FIG. 3 is a perspective view showing an ionizing member before and after the sterilizing bath in an apparatus for producing sterilizing water using metal ions according to an embodiment of the present invention. 5 is a sectional view taken along the line A-A in Fig. 1, and Fig. 6 is a sectional view taken along the line B-B in Fig.

As shown in the drawing, an apparatus 100 for generating sterilizing water using metal ions according to an embodiment of the present invention (hereinafter referred to as "sterilizing water producing apparatus") comprises a sterilizing tank 110, a first ionizing member 130, And a second ionization member 160.

The disinfection tank 110 includes a partition wall 111 dividing an internal space into an upper space 112 and a lower space 113. The partition wall 111 separates the upper space 112 and the lower space 113 from each other As shown in FIG. The sterilizing tank 110 may have a shape in which an area for communicating the upper space 112 and the lower space 113 with respect to the inner surface of the one side where the inlet 115 is formed is formed in the direction of the opposite inner surface.

Thus, the raw water (hereinafter, referred to as "sterilized water") for generating the sterilized water supplied through the inlet 115 is filled in the upper space 112 through the area communicating with the upper space 112, And flows through the outlet 116 when the upper space 112 is filled up to the height of the outlet 116. As shown in FIG. That is, according to the structure of the sterilizing tank 110 and the movement of the sterilizing water, the sterilizing water introduced into the inlet 115 flows into the lower space 113 of the sterilizing tank 110, Is converted into sterilized water having a sterilizing function through the cathode member 160 and then flows into the upper space 112 of the sterilization tank 110 and is sequentially discharged through the outlet 116. [

The partition wall 111 extends horizontally from the inner surface of one side of the sterilizing tank 110 toward the opposite inner surface so that the inner space of the sterilizing tank 110 is divided into the upper space 112 and the lower space 113 and one or more through-type connection holes 114 for communicating the upper space 112 and the lower space 113 of the sterilizing tank 110 are formed.

Although not shown in the drawing, the present invention is not limited thereto, but is spaced apart from the inner surface of the sterilizing tank 110 in the extending direction of the extending end of the partition wall 111, A state in which an area connecting the upper space 112 and the lower space 113 of the sterilizing tank 110 is formed between the inner surface of the sterilizing tank 110 in the extending direction, And the upper space 112 and the lower space 113 of the lower substrate 100. [ In this paragraph, the reference numerals of the partition 111 and the sterilizing tank 110 are in accordance with the present embodiment which is described with reference to FIGS. 1 to 6. FIG.

The inlet 115 and the outlet 116 of the sterilizing tank 110 may be formed on one surface of the sterilizing tank 110 in the same direction. The sterilizing water introduced through the inlet 115 fills the lower space 113 of the sterilizing tank 110 and then flows into the sterilizing tank 110 through the connection hole 114 on the opposite side of the inlet 115. [ 110, and flows along the upper space 112, and then flows through the outlet 116. As shown in FIG.

The first ionizing member 130 and the second ionizing member 160 are installed in a lower space of the sterilizing tank 110. At this time, sterilizing water supplied to the inlet 115 of the sterilizing tank 110 Since the bottom space 113 is completely filled with the function of the partition wall 111 and the connection hole 114 and then flows into the upper space 112, the sterilized raw water flowing through the inlet 115 necessarily flows through the first ionization The sterilizing water containing the sterilizing function flows into the upper space 112 of the sterilizing tank 110 after passing through between the member 130 and the second ionizing member 160.

In other words, the sterilizing water supplied to the inlet 115 of the sterilizing tank 110 is supplied to the lower portion of the sterilizing tank 110 through the function of the partition 111 and the connection hole 114, The sterilizing water is converted into the sterilizing water containing the sterilizing function while passing through the first ionizing member 130 and the second ionizing member 160 in the space 113 and then flows into the upper space 112 of the sterilizing tank 110, .

The first ionizing member 130 and the second ionizing member 160 are installed to face each other in the lower space of the sterilizing tank 110 to increase the efficiency of converting the sterilizing water into the sterilizing water containing the sterilizing function .

The detailed structure and operation of the first ionizing member 130 and the second ionizing member 160, which function to convert the sterilizing raw water into the sterilizing water having the sterilizing function through the metal ion, will be described.

The first ionizing member 130 is installed in the lower space 113 of the sterilizing tank 110. The first ionizing member 130 is a power source in which the polarity switching of the positive electrode and the negative electrode is repeated according to a predetermined time . The first ionizing member 130 is formed of one or more of an alloy of silver, silver alloy, gold, a gold alloy, copper, and a copper alloy. In this embodiment, the first ionizing member 130 has a plate shape, but the present invention is not limited thereto.

The second ionizing member 160 is installed in the lower space 113 of the sterilizing tank 110 to face the first ionizing member 130. The second ionizing member 160 is disposed on the first ionizing member 130 The polarity switching between the positive polarity and the negative polarity is repeated according to a predetermined period of time within a condition that the polarity opposite to the polarity applied to the positive polarity is applied. The second ionization member 160 is formed of any one or two or more of silver, silver alloy, gold, gold alloy, copper, and copper alloy. In the present embodiment, the second ionizing member 160 is in the form of a plate, but the present invention is not limited thereto.

Thus, when a positive electrode is applied to the first ionizing member 130 and a negative electrode is applied to the second ionizing member 160, metal ions are released from the first ionizing member 130, Is mixed with the sterilizing water that passes between the first ionizing member 130 and the second ionizing member 160 in the lower space 113 of the sterilizing tank 110 so that the sterilizing water is sterilized To be sterilized.

When the polarities of the electrodes applied to the first ionizing member 130 and the second ionizing member 160 are changed so that the positive electrode is applied to the second ionizing member 160 and the negative electrode is applied to the first ionizing member 130 The metal ion is discharged from the second ionizing member 160 and the metal ion discharged from the second ionizing member 160 is discharged to the second ionizing member 160 of the sterilizing bath 110 The sterilizing water that passes between the ionizing members 130 is mixed with the sterilizing water so that the sterilizing water is converted into the sterilizing water including the sterilizing function.

The plate-shaped first ionizing member 130 and the second ionizing member 160 are attached to the inner surfaces of both sides of the lower space 113 formed in the sterilizing tank 110, The first ionizing member 130 and the second ionizing member 160 are positioned in the lower space 113 with respect to the direction from the inlet 115 of the sterilizing tank 110 toward the connection hole 114. [ As shown in Fig. The sterilizing water supplied to the lower space 113 through the inlet 115 of the sterilizing tank 110 is supplied to the first ionizing member 130 and the second ionizing member 130, The first ionizing member 130 and the second ionizing member 160 are electrically connected to each other and the first ionizing member 130 or the second ionizing member 160 is electrically connected to the first ionizing member 130 and the second ionizing member 160, Metal ions are mixed and converted into sterilized water and then introduced into the upper space 112 of the sterilizing tank 110.

One or both of the first ionizing member 130 and the second ionizing member may be provided on the upper surface and / or the lower surface of the sterilizing tank, The contact protrusions 131 may be formed to have a smaller width than the thickness of the upper surface or the lower surface of the first ionizing member 130 or the second ionizing member 160. In this case,

The first ionizing member 130 or the contact protrusion 131 of the second ionizing member is coupled to the sterilizing bath 110 in a sliding manner so that the protrusion sliding groove (117a, 117b) may be formed on one side or both sides of the lower space (113).

Either one or both of the contact protrusions 131 of the first ionizing member 130 and the contact protrusions of the second ionizing member can contact with the electrodes in the protrusion sliding grooves 117a and 117b of the sterilizing tank 110. [ The first ionizing member 130 or the second ionizing member 160 is isolated from the lower space 113 of the sterilizing tank 110 and thus does not release metal ions together with the release of the metal ions, Lt; / RTI >

The sterilization tank 110 is formed with electrode insertion holes 118 and 120 which extend in the direction of communicating with the projection sliding grooves 117a and 117b along the projection sliding grooves 117a and 117b and are connected to the electrode insertion holes 118 and 120 Electrode connection holes 119 and 121 are formed.

The electrode rods 140 and 170 are inserted into the electrode insertion holes 118 and 120 of the sterilizing bath 110. The electrode rods 140 and 170 inserted into the electrode insertion holes 118 and 120 of the sterilizing bath 110 are inserted into the protrusions The first ionizing member 130 coupled to the sliding grooves 117a and 117b and the contact protrusions 131 of the second ionizing member 160 remain in contact with each other.

When power is applied to the electrodes 140 and 170, power is applied to the contact protrusions 131 and 161 of the first ionizing member 130 and the second ionizing member 160. For this purpose, The electrode connection terminals 150 and 180 are inserted through the connection holes 119 and 121 to maintain contact with the electrode rods 140 and 170. That is, when power is applied to the electrode connection terminals 150 and 180, power is applied to the contact protrusions 131 and 161 of the first and second ionization members 130 and 160 through the electrodes 140 and 170. Here, the polarity switching between the positive electrode and the negative electrode is repeatedly applied to the electrode connection terminals 150 and 180 for a predetermined period of time, so that power is applied to the first ionizing member 130 or the second ionizing member 160, The power is applied in such a manner that the polarity switching is repeated according to a predetermined time. In this embodiment, power is applied to the first ionizing member 130 or the second ionizing member 160 in such a manner that the polarity of the positive electrode and the negative electrode is switched at intervals of one minute.

The electrode insertion holes 118 and 120 of the sterilizing bath 110 are formed in the upper and lower protrusion sliding grooves 117a and 117b corresponding to the upper and lower contact protrusions 131 and 161 of the first and second ionizing members 130 and 160 As shown in FIG.

The electrode rod 140 is connected to the upper and lower protrusion sliding grooves 117a with reference to the electrode rod 140 of the electrode insertion hole 118 communicating with the protrusion sliding groove 117a of the first ionizing member 130. [ And first and second electrode rods 140a and 140b inserted into the first and second electrode rods 140a and 140b and a connecting rod 140c connecting one end of the first and second electrode rods 140a and 140b in the longitudinal direction.

Accordingly, the electrode rod 140 is inserted into the corresponding region of the electrode insertion hole 118 while sliding the first and second electrode rods 140a and 140b and the connecting rod 140c in the corresponding region of the electrode insertion hole 118, The upper and lower contact protrusions 131 of the first ionizing member 130 are brought into contact with the contact portions 140a and 140b.

The contact protrusions 131 for energizing the first ionizing member 130 are formed in plural for stable energization of the first ionizing member 130 and the contact protrusions 131 are formed on the electrode rods 140 of the contact protrusions 131 Touching and thus electrical connection can be achieved with an efficient connection structure close to the one-touch method.

The electrode bar 170 is connected to the upper and lower protrusion sliding grooves 117b with reference to the electrode bar 170 of the electrode insertion hole 120 communicating with the projection sliding groove 117b of the second ionizing member 160 And a connecting rod 170c connecting the first and second electrode rods 170a and 170b and the longitudinal ends of the first and second electrode rods 170a and 170b.

Therefore, the electrode rod 170 is inserted into the electrode insertion hole 120 in a manner that the first and second electrode rods 170a and 170b and the connecting rod 170c are simultaneously slid in the corresponding region of the electrode insertion hole 120, 170b of the second ionizing member 160 are in contact with the upper and lower contact protrusions 161 of the second ionizing member 160. [

The contact protrusions 161 for energizing the second ionizing member 160 are formed in plural for stable energization of the second ionizing member 160 and the contact protrusions 161 are formed on the electrode bar 170 of each contact protrusion 161 Touching and thus electrical connection can be achieved with an efficient connection structure close to the one-touch method.

The sterilizing tank 110 further includes a cover 190 for opening and closing the internal spaces of the first ionizing member 130 and the second ionizing member and the corresponding electrode rods and the other sterilizing tank 110 .

A rib 191 for a water-tight function protrudes from one side of the cover 190 and a rib 191 of the cover 190 is inserted into the cover- A packing member 123 having a watertight function is inserted into the rib engagement groove 122 and the ribs 191 and the packing member 123 in the rib engagement groove 122 are inserted into the rib engagement groove 122, The watertightness is maintained through close contact.

However, the present invention is not limited thereto, and various configurations can be applied within a range that satisfies the condition that the joint between the cover 190 and the sterilizing tank 110 can maintain watertightness.

Next, referring to FIGS. 7 and 8, a coupling structure for the main body 200 of the sterilizing water producing apparatus 100 using metal ions according to an embodiment of the present invention will be described.

FIGS. 7 and 8 are perspective views showing a coupling structure of a sterilizing water producing device using metal ions according to an embodiment of the present invention. FIG.

As shown in the drawing, the sterilizing tank 110 is configured to have a shape capable of switching the directions of the inlet 115 and the outlet 116 in the opposite direction without causing the upside- And the guide protrusion 124 of the guide protrusion 124 is formed.

Accordingly, the main body 200 is formed with the guide grooves 210 corresponding to the guide protrusions 124 of the sterilizing tank 110.

The sterilizing tank 110 is rotated in the vertical direction along the water supply direction of the main body 200 with respect to the main body 200 including the outer case and the power supply part including the rectifying part of the external power supply, And can be slidably coupled to the main body 200 while changing its direction freely in either one of the opposite directions.

As can be seen from the above description with reference to Figs. 1 to 8, the sterilizing water producing apparatus using metal ions according to the present invention is characterized in that the water to be introduced is not necessarily supplied with metal ions To be sterilized in accordance with the dissolution of the sterilized water.

In addition, it is possible to isolate the contact portion for energizing the ionizing member from the water so as to prevent or prevent the metal ion from being released to the contact portion as much as possible, and to prevent the contact portion for energizing the ionizing member from stably energizing And has an efficient connection structure close to the power source and the one-touch method, so that it can be connected to the power source through an easy operation.

Further, it is preferable that the mother body including the outer case, the power supply part including the rectifying part of the external power supply, and the like are arranged in any one of the directions opposite to each other without reversing the up- So that it can be freely changed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments or constructions. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all the equivalents or equivalents of the claims, as well as the claims set forth below, fall within the scope of the present invention.

100: sterilization water generating device 110: sterilization tank
111: partition wall 112: upper space
113: lower space 114: connection hole
115: inlet 116: outlet
117a, 117b: projection sliding groove 118, 120: electrode insertion hole
119, 121: Electrode connection hole 122: Rib connection groove
123: packing member 124: guide projection
130: first ionization member 131: contact projection
140, 170: electrode rod 140a, 170a: first electrode rod
140b, 170b: second electrode rods 140c, 170c: connecting rod
150, 180: electrode connection terminal 160: second ionization member
161: contact protrusion 190: cover
191: rib 200:
210: guide groove

Claims (8)

Wherein the inner space is divided into an upper space and a lower space by barrier ribs and the barrier rib communicates the upper space and the lower space with each other having an inlet port formed on the lower side of the barrier rib and a discharge port formed on the upper side of the barrier rib, ;
A first ionizing member installed in the lower space of the sterilizing tank and being supplied with power in such a manner that polarity switching between the positive electrode and the negative electrode is repeated according to a predetermined time;
A power source is provided in the lower space of the sterilizing tank in such a manner that polarity switching between the positive electrode and the negative electrode is repeated according to a predetermined time within a condition that the polarity is opposite to the polarity applied to the first ionizing member, A sterilizing water producing device using a metal ion including a second ionizing member that emits ions. The method according to claim 1,
Wherein the sterilizing tank has a region through which the upper space and the lower space communicate with each other in the direction of the inner surface opposite to the one inner surface on which the inlet is formed. 3. The method of claim 2,
The partition wall extending from the inner surface of the sterilizing tank on one side to the opposite inner surface is spaced apart from the inner surface in the extending direction to form a connection hole connecting the upper space and the lower space, Wherein a through hole is formed in the extending end of the partition wall extending from the inner surface of the one side to the opposite inner surface to connect the upper space and the lower space. The method according to claim 1,
Wherein the inlet and outlet ports are formed on one surface of the sterilizing tank in the same direction. The method according to claim 1,
One or both of the first ionizing member and the second ionizing member may have one or more contact protrusions formed on one or both of the upper surface and the lower surface of the sterilizing tank, The contact protrusions are formed to have a width smaller than the thickness of the upper surface or the lower surface of the first ionizing member or the second ionizing member,
Characterized in that a protruding sliding groove is formed on one side or both sides of the lower space so that the contact protrusions of the first ionizing member or the second ionizing member are slidably coupled to cover the lower space, A sterilization water generating device using the sterilizing device. 6. The method of claim 5,
An electrode insertion hole communicating with the projection sliding groove is formed in the sterilizing bath along the projection sliding groove and an electrode connection hole communicating with the electrode insertion hole is formed,
An electrode rod inserted into the electrode insertion hole and contacting the contact projection coupled to the projection sliding groove; And
And an electrode connection terminal inserted into the electrode connection hole and contacting the electrode in the electrode insertion hole,
Wherein power is applied to the electrode connection terminal in such a manner that polarity switching between the positive electrode and the negative electrode is repeated according to a predetermined time. The method according to claim 6,
Wherein the electrode insertion holes are formed to connect the upper and lower protrusion sliding grooves,
Wherein the electrode rod includes first and second electrode rods inserted into the projection slots of the upper and lower protrusions and a connecting rod connecting one end of the first and second electrode rods in the longitudinal direction, Wherein the electrode is inserted in such a manner that an electrode rod and a connecting rod are simultaneously slid in a corresponding region of the electrode insertion hole. The method according to claim 1,
Wherein the sterilizing tank includes guide protrusions that are capable of reversing the directions of the inlet and outlet ports without generating a vertical inversion when the sterilizing container is coupled to the main body,
Wherein the body is provided with a guide groove corresponding to the guide protrusion.

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