CN102786119A - Water sterilizing module and water sterilizer provided with the same - Google Patents

Abstract

In a water sterilizing module and a water sterilizer, the water sterilizing module comprises a sterilized water generating unit, a module main body, and a first and second electrode bar. The sterilized water generating unit comprises a first electrode plate, a second electrode plate, and an electrode separating plate. The first electrode plate comprises a first electrode part and a first combining part. The first electrode part is provided with a plurality of first slots formed at the first electrode part, and the first combining part protrudes from the edge of the first electrode part. The second electrode part is formed at the upper part of the first electrode part and comprises a second electrode part and a second combining part. The second electrode part is provided with a plurality of second slots formed at the second electrode part, and the second combining part protrudes from the edge of the second electrode part. The electrode separating plate is disposed between the first electrode plate and the second electrode plate. The module main body is provided with a receiving space receiving the sterilized water generating unit. The first and second electrode bars are respectively combined with the first and second combining parts so as to respectively provide different polarities to the first and second electrode plates.

Description

Water sterilization module and water sterilizer with this water sterilization module

Background technology

1. technical field

Exemplary embodiment of the present invention relates to water sterilization module and the water sterilizer with water sterilization module.Exemplary embodiment of the present invention relates in particular to water sterilization module that produces sterilized water and the water sterilizer with water sterilization module.

2. description of related art

Usually, water sterilizer causes the discharge generation negative ion.Through the water discharge, can under relatively low voltage, produce negative ion.For example, between two adjacent electrode plate, discharge volts DS, locally on negative pole then produce the heat that discharges and owing to evaporation of water produces bubble under water.This bubble is towards positive extreme direction diffusion, thereby the generation discharge is to form conductive channel under very low voltage.Therefore, produced a large amount of active oxygens and germ-resistant function has been arranged to possess.

Yet the slit on the battery lead plate that is used to discharge is formed by simple pattern usually, so the intersection efficient of electrode (crossing efficiency) is relatively low.In addition, two electrode plate should be made with mutually different structure to receive mutually different polarity (polarities).And; When manufacturing provides the electrode bar of power supply to battery lead plate (electrode rods); Convex-end electrode rod and spill electrode bar are to make separately, then they are together with each other, and have therefore increased the complicacy of making the cost of water sterilizer and having aggravated the water sterilizer ME.

Summary of the invention

Exemplary embodiment of the present invention provides a kind of water sterilization module that can improve the intersection efficient of electrode and simplify production process.

Exemplary embodiment of the present invention also provides the water sterilizer with this water sterilization module.

According to one exemplary embodiment of the present invention, this water sterilization module comprises sterilized water generation unit, module body and first and second electrode bar.This sterilized water generation unit comprises first battery lead plate, second battery lead plate and electrode separation plate.Said first battery lead plate comprises first electrode part and first bound fraction.Said first electrode partly has a plurality of first slits that are formed on first electrode part, and said first bound fraction is outstanding from the edge of first electrode part.Said second battery lead plate is positioned at first battery lead plate top and comprises second electrode part and second bound fraction.Said second electrode partly has a plurality of second slits that are formed in second electrode part, and said second bound fraction is outstanding from the edge of second electrode part.Said electrode separation plate is arranged between said first and second battery lead plates.Said module bodies has the reception space that receives said sterilized water generation unit.Said first and second electrode bars combine so that to first and second battery lead plates dissimilar polarity is provided respectively with first and second bound fractions respectively.

In one exemplary embodiment, the direction that said first and second battery lead plates can be opposite combines.

In one exemplary embodiment, each had slant pattern in said first and second slits, and said first and second battery lead plates can combine makes the slant pattern of slant pattern and said second slit of said first slit intersect.

In one exemplary embodiment; First curved part that is used for crooked said first bound fraction can be formed in the zone that said first bound fraction and the said first electrode part branch interconnect, and second curved part that is used for crooked said second bound fraction can be formed in the zone that said second bound fraction and the said second electrode part branch interconnect.

In one exemplary embodiment, said first and second bound fractions can be substantially parallel with the said first and second electrode parts respectively.

In one exemplary embodiment, said first and second bound fractions can be bent to, with respect to said first and second curved parts, basically respectively perpendicular to the said first and second electrode parts.

In one exemplary embodiment, said first and second bound fractions can be crooked along substantially the same direction.

In one exemplary embodiment, first combined hole can pass said first bound fraction and form, and said first electrode bar is combined through passing said first combined hole; And second combined hole can pass said second bound fraction and form, and said second electrode bar is combined through passing said second combined hole.

In one exemplary embodiment, each comprised convex-end electrode rod and spill electrode bar in said first and second electrode bars, and this spill electrode bar can be integrally formed with said module bodies.

In one exemplary embodiment, said spill electrode bar can be integrally formed through insert molding method and said module bodies.

According to one exemplary embodiment of the present invention, a kind of water sterilizer comprises water sterilization module and power supply.This water sterilization module comprises sterilized water generation unit, module bodies and first and second electrode bar.This sterilized water generation unit comprises first battery lead plate, second battery lead plate and electrode separation plate.This first battery lead plate comprises first electrode part and first bound fraction.This first electrode partly has a plurality of first slits that are formed on this first electrode part, and said first bound fraction is outstanding from the said first electrode part edge.Said second battery lead plate is formed on the top of said first battery lead plate and comprises second electrode part and second bound fraction.Said second electrode partly has a plurality of second slits that are formed on this second electrode part, and said second bound fraction is outstanding from the edge of said second electrode part.Said electrode separation plate is arranged between said first and second battery lead plates.Said module bodies has the reception space that receives the sterilized water generation unit.Said first and second electrode bars combine with said first and second bound fractions respectively, so that to said first and second battery lead plates polarity that differs from one another is provided respectively.Said power supply provides voltage to said first and second electrode bars.

In one exemplary embodiment, said first and second bound fractions can be basically parallel to the said first and second electrode parts respectively, and said first and second electrode bars can vertically combine with said first and second electrodes part respectively.

In one exemplary embodiment, said water sterilizer can further comprise the sub-body that supports said water sterilization module and in this sub-body, have power supply.

In one exemplary embodiment, said water sterilizer can comprise further that the reception spatial mount pad that is connected to said water sterilization module is to provide the water storage space.

In one exemplary embodiment, said first and second bound fractions can be arranged to be basically perpendicular to the said first and second electrode parts respectively, and said first and second electrode bars can combine with said first and second electrodes part respectively abreast.

In one exemplary embodiment, said water sterilizer can further comprise the reception spatial lid part that covers said module bodies.

In one exemplary embodiment, said water sterilizer can further comprise and receives said water sterilization module and to the receptor of power source charges.

According to exemplary embodiment of the present invention; The sterilized water generation unit comprises battery lead plate; Said battery lead plate has to be and intersects the slit of pattern, and said battery lead plate combines with opposite direction, thus make the intersection efficient of electrode can be in the zone of minimum increase and can efficiently produce sterilized water.

In addition, combine to form the sterilized water generation unit with opposite direction thereby partly have battery lead plate bound fraction, that shape is identical basically, thereby manufacturing processed is easier, and the manufacturing cost price of sterilized water generation unit can reduce at lower rim.

In addition, the battery lead plate with spill adopts the manufacturing of insert molding technology, therefore can not need to make separately the independent technology of the battery lead plate with convex and spill, thereby can make the electrode bar of water sterilization module easily.

Description of drawings

Through describing exemplary embodiment of the present invention in detail with reference to accompanying drawing, of the present inventionly above-mentionedly will become more obvious with other feature and advantage, wherein:

Fig. 1 is the skeleton view of having described according to the water sterilizer of exemplary embodiment of the present invention;

Fig. 2 is a skeleton view of having described the water sterilization module of the water sterilizer among Fig. 1;

Fig. 3 is a decomposition diagram of having described the sterilized water generation unit among Fig. 2;

Fig. 4 is the skeleton view of having described among Fig. 2 along inside of ' X ' part of line I-I ' institute intercepting;

Fig. 5 is the skeleton view of having described according to the water sterilizer of another exemplary embodiment of the present invention;

Fig. 6 is a front view of having described the water sterilization module of the water sterilizer among Fig. 5;

Fig. 7 is a decomposition diagram of having described the sterilized water generation unit among Fig. 6; And

Fig. 8 has described the cross section view of ' Y ' part among Fig. 6.

Embodiment

Hereinafter, with present invention will be described in detail with reference to the accompanying.

Fig. 1 is the skeleton view of having described according to the water sterilizer of exemplary embodiment of the present invention.Fig. 2 is a skeleton view of having described the water sterilization module of the water sterilizer among Fig. 1.Fig. 3 is a decomposition diagram of having described the sterilized water generation unit among Fig. 2.Fig. 4 is the skeleton view of inside of having described ' X ' part of line I-I ' the institute intercepting in Fig. 2.

Referring to figs. 1 to Fig. 4, comprise water sterilization module 10, reservoir chamber 20 and base 30 according to the water sterilizer 1000 of this exemplary embodiment.This water sterilization module 10 can produce low-temperature plasma (non-thermal plasma) in the water in the reservoir chamber 20.Each of this water sterilizer 1000 will be described in detail below element.

Reservoir chamber 20 is the hollow elliptical cylinder-shape, has a certain amount of water in this reservoir chamber 20.The bottom of this reservoir chamber 20 closely combines with this water sterilization module 10 along the edge of water sterilization module 10.Thereby can prevent that the water in the reservoir chamber 20 from spilling from water sterilizer 1000, and the water in the reservoir chamber 20 is received by (not shown) in the sterilized water generation unit of water sterilization module 10.

The water storage chamber cap 22 that covers on reservoir chamber 20 tops combines with the top of reservoir chamber 20.Inlet 24 can pass water storage chamber cap 22 and form, and water can flow in the reservoir chamber 20 through this inlet.In addition, on the outside surface of reservoir chamber 20, be formed with display panel 26, it is used to show the height of water.

Alternatively, reservoir chamber 20 also can be other different shapes to hold a certain amount of water, for example, the shape of reservoir chamber 20 can be the square column type of hollow.

Water sterilization module 10 is formed on the base 30 and with the bottom of reservoir chamber 20 and combines closely, and water sterilization module thus 10 has formed predetermined reception space with reservoir chamber 20.As stated, the bottom of reservoir chamber 20 combines with water sterilization module 10 along the edge of water sterilization module 10, and very close to each other between reservoir chamber 20 and water sterilization module 10.

Water sterilization module 10 comprises main body 300, sterilized water generation unit 100 and electrode bar 200.

For example, the shape of the main body 300 of water sterilization module 10 is closed with the shape-consistent of reservoir chamber 20 basically, so that this main body 300 can be combined closely with reservoir chamber 20.For example, when reservoir chamber 20 be shaped as elliptical cylinder-shape the time, the shape of said main body also is an elliptical cylinder-shape.Said water sterilization module 10 can be the oval dish type with pre-determined thickness.Centre portions in water sterilization module 10 forms the recessed portion 310 with pre-determined thickness, and said sterilized water generation unit 100 is installed in the female part 310.Thus, when water was injected into reservoir chamber 20, water is introduced into recessed portion 310 and water level raises along reservoir chamber 20.In addition, the water that is injected into reservoir chamber 20 directly contacts with sterilized water generation unit 100.

Sterilized water generation unit 100 causes discharge (discharge) and in water, produces low-temperature plasma between two spaced battery lead plates, and said sterilized water generation unit 100 comprises first battery lead plate 110, second battery lead plate 130 and electrode separation plate 120.Sterilized water generation unit 100 is the rectangular plate shape with predetermined length along first direction D1, and the long limit of said main body 300 (longitudinal side) extends along this first direction D1.Sterilized water generation unit 100 is installed in the long limit that makes the long limit of sterilized water generation unit 100 be arranged essentially parallel to main body 300 on the main body 300, thereby sterilized water generation unit 100 has occupied the relatively large area in the recessed portion 310 of water sterilization module.In addition, the side of sterilized water generation unit 100 is crooked so that corresponding with the curved shape of recessed portion 310.

First battery lead plate 110, second battery lead plate 130 and the electrode separation plate 120 of said sterilized water generation unit 100 are of similar shape basically, and are stacked each other on together.For example, said first battery lead plate 110 comprises the first electrode part 111 and first bound fraction 112 that extends from the edge of this first electrode part 111.This electrode part 111 is for having the rectangular shape of curved edge.This first electrode part 111 comprises the slit 114 with predetermined pattern.Slit 114 has formed slant pattern (pattern) on the first electrode part 111.For example, slit 114 has the slant pattern that tilts with respect to first direction D1, and slit 114 can be about 45 ° with respect to the angle of inclination of first direction D1.Distance between the adjacent slots 114 can be a fixed, and the width of each slit 114 can be a fixed.Slit 114 can be formed on upside or the downside with respect to first battery lead plate 110 of medullary ray 116, to guarantee stability of structure.

First bound fraction 112 is formed on the lower edge of the first electrode part 111 and stretches out from the edge of the first electrode part 111.The first combined hole 112a passes said first bound fraction 112, and convex-end electrode rod 210 is inserted among this first combined hole 112a.Said first bound fraction 112 comprises the first curved part 112b, makes the bound fraction 112 of winning crooked along first direction D1.The said first curved part 112b can have score (groove line), makes said first bound fraction 112 to be substantially perpendicular to the first electrode part 111 with respect to this score.Said first battery lead plate 110 comprises electro-conductive material.For example, this first battery lead plate 110 comprises titanium (Ti), and selectively, platinum (Pt), iridium (Ir), palladium (Pd) or the like can apply or be deposited on this first battery lead plate 110.

Said second battery lead plate 130 is substantially the same with said first battery lead plate 110.Therefore, first battery lead plate 110 can be used as second battery lead plate 130.Yet in the process of making sterilized water generation unit 100, second battery lead plate 130 combines with first battery lead plate 110 with the opposite direction with respect to first direction D1.For example, first and second battery lead plates 110 and 130 combine with the opposite direction of L-R.Therefore therefore, the slant pattern of second battery lead plate 130 is different from the slant pattern of first battery lead plate 110, and first and second battery lead plates 110 and 130 slant pattern intersect each other.In addition, second bound fraction 132 and first bound fraction 112 of first battery lead plate 110 that are formed on second battery lead plate 130 are relative.Each piece in first and second battery lead plates 110 and 130 has slit; It has slant pattern; And the slant pattern of first and second battery lead plates 110 and 130 intersects each other, makes the intersection efficient of electrode in the relative less area of battery lead plate, obtain maximization and can produce sterilized water efficiently.

Electrode separation plate 120 comprises resilient material, and this electrode separation plate is set between said first and second battery lead plates 110 and 130.Electrode separation plate 120 electric power separate (electrically separates) first and second battery lead plates 110 and 130; And this electrode separation plate 120 has a plurality of holes, thereby the water that flows through first and second battery lead plates 110 and 130 can not be hindered and can make the relative area maximizing of first and second battery lead plates.In addition, electrode separation plate 120 comprises that connecting frame 122 that the side with electrode separation plate plate 120 interconnects is to guarantee stability of structure.In this exemplary embodiment, electrode separation plate 120 comprises horizontal connection box 122a and two the vertical connection box 122b that extend along first direction D1 that the electrode separation plate are divided into upside and downside.First hook 124 can be formed on the side of electrode separation plate 120 with fixing first and second battery lead plates 110 and 130.Electrode separation plate 120 has the thickness of predetermined size, makes first and second battery lead plates be properly spaced out each other and the discharge between first and second battery lead plates can effectively take place.For example, the thickness of electrode separation plate 120 can be less than or equal to about 1mm.

First and second battery lead plates 110 and 130 are combined in the both sides of electrode separation plate 120 respectively to form sterilized water generation unit 100.Sterilized water generation unit 100 is fixed on the main body 300 through using electrode bar 200.Battery lead plate 200 comprises first and second convex-end electrodes rod 210 and 230, and the first and second spill electrode bars 220 and 240.This first and second spills electrode bar 220 and 240 is inserted into first and second convex-end electrodes rod 210 and 230 respectively, to combine as screw.The first and second spill electrode bars 220 and 240 all are formed on the main body 300.

For example, the first and second spill electrode bars 220 and 240 form respectively so that be consistent with said first and second combined hole 112a and 132a.The first and second spill electrode bars 220 and 240 integrally formed through insert molding method and main body 300.For example, the first and second spill electrode bars 220 and 240 are inserted in the mould in the injection molding process of main body 300, thus this first and second spills electrode bar 220 and 240 and this main body 300 be integrally formed as stiffener.

First and second convex-end electrodes rod 210 and 230 is inserted into respectively among the first and second combined hole 112a and 132a of sterilized water generation unit 100.This first and second convex-end electrodes rod 210 and 230 combines with the first and second spill electrode bars 220 and 240 respectively, so that sterilized water generation unit 100 is fixed in the main body 300.Electrode bar 200 comprises electro-conductive material, and the said first and second spill electrode bars 220 and 240 are connected to the power supply (not shown) in the base 30.Thus, electrode bar 200 receives the electric power from this power supply, and this electric power is provided to sterilized water generation unit 100.In addition, second hook 320 is formed on the main body 300 with fixing sterilized water generation unit 100.

First and second bound fractions 112 and 132 are parallel to the first and second electrode parts 111 and 131 respectively.So, electrode bar 200 vertically combines with the first and second electrode parts 111 and 131.Thereby sterilized water generation unit 100 is positioned on the recessed portion 310 of main body 300 abreast, and low-temperature plasma can produce in the water in the reservoir chamber 20 effectively.

First bound fraction 112 of said sterilized water generation unit 100 is connected with first battery lead plate 110, and second bound fraction 132 of this sterilized water generation unit is connected with first battery lead plate 130.Thereby being fixed on the electric power that first convex-end electrode rod, 210 and the first spill electrode bar 220 of first bound fraction 112 receives from power supply also provides this electric power to first battery lead plate 110.Be connected to the electric power that second convex-end electrode rod, 230 and the second spill electrode bar 240 of fixed part 132 receives from power supply and also this electric power offered second electrode bar 130.Therefore, first convex and spill electrode bar and second convex and spill electrode bar provide electric power to first and second electrode bars respectively, thereby the polarity of working as first and second battery lead plates can more easily not produce plasma body simultaneously.

Base 30 can be along the cross-sectional area of first direction D1 greater than the cross-sectional area of reservoir chamber 20 stably supporting water sterilizer 1000, and provide the power supply (not shown) of electric power and the unit (not shown) of control power supply to be set in the base 30 to water sterilization module 10.Switch 32 can be set on the base 30 be used for the manual operation water sterilizer.

As stated, comprise battery lead plate, and these battery lead plates combine with opposite direction, efficiently produce sterilized water thereby make the intersection efficient of electrode to maximize with slanted slots pattern according to the sterilized water generation unit of this exemplary embodiment.

In addition, the battery lead plate with substantially the same shape is combined together to form the sterilized water generation unit with opposite way, so, just can simplify production process, and can reduce the cost of making this sterilized water generation unit.Therefore, electrode bar is fixed to bound fraction can be simply, the counter electrode rod provides dissimilar polarity respectively, thereby the sterilized water generation unit can form a module.

In addition, the spill electrode bar forms through plugging together molding method, therefore, can not need the excellent and independent bonded step of spill electrode bar with convex-end electrode in addition, in disinfection module, forms electrode bar in conjunction with the convex-end electrode rod.

Fig. 5 is for describing the skeleton view according to the water sterilizer of another exemplary embodiment of the present invention.Fig. 6 is a front view of having described the water sterilization module of the water sterilizer among Fig. 5.Fig. 7 is a decomposition diagram of having described the sterilized water generation unit among Fig. 6.Fig. 8 is for describing the sectional view of ' Y ' part among Fig. 6.

With reference to Fig. 5 to Fig. 8, comprise main body 60 and mount pad 70 according to the water sterilizer 2000 of this exemplary embodiment.Main body 60 comprises lid part 50 and water sterilization module 40.In water sterilizer 2000 according to an exemplary embodiment of the present invention, main body 60 should be dipped in the water, and water sterilizer 2000 can produce low-temperature plasma in being soaked with the water of said main body.Each element of this water sterilizer 2000 will specify hereinafter.

Main body 60 comprises water sterilization module 40 that produces low-temperature plasma and the lid part 50 that covers sterilized water generation unit 400.This water sterilization module 40 comprises main body 600, sterilized water generation unit 400 and electrode bar 500.

The main body 600 of for example, water sterilization module 40 comprises first main body 610 and second main body 620.This first main body 610 has the shape that main body of making 600 is the part open state, and this second main body 620 and first main body 610 are integrally formed and have an internal space of sealing.Said sterilized water generation unit 400 is fixed on first main body 610, and in second main body 620, has power supply (not shown) and unit (not shown).

Except first and second bound fractions respectively along the first and second curved part bendings, be the same according to the sterilized water generation unit 400 of this exemplary embodiment basically with sterilized water generation unit 100 according to preceding example property embodiment.Therefore, components identical adopts identical Reference numeral, and omits repeat specification.

First bound fraction 112 of said first battery lead plate 110 is crooked along the first curved part 112b.In this exemplary embodiment, first bound fraction 112 is bent to basically with parallel perpendicular to the second direction D2 of first direction D1.For example, said first bound fraction 112 is bent to vertical with first electrode 111 basically.Second bound fraction 132 is bent to parallel with second direction D2 basically.Therefore, when electrode separation plate 120 combined with first and second battery lead plates 110 and 130, first and second bound fractions were by crooked along second direction D2.

Through electrode bar 500, sterilized water generation unit 400 is fixed to main body 600.Basically is identical according to the electrode bar 500 of this exemplary embodiment with electrode bar 200 according to preceding example property embodiment, repeats no more here.

Said first and second convex- end electrodes rod 510 and 530 is inserted into said first and second combined hole 112a and the 132a respectively.First and second convex- end electrodes rod 510 and 530 combines with the first and second spill electrode bars 540 respectively, so that sterilized water generation unit 400 is fixed to main body 600.For example, the said first and second spill electrode bars 540 are formed in second main body 620, and are consistent with said first and second combined hole 112a and 132a.This first and second spills electrode bar 540 is integrally formed through plugging together castmethod with said main body.The said first and second spill electrode bars are connected with second main body, 620 interior power supplys.

Sterilized water generation unit 400 is installed in first main body 610, and is basic vertical with second main body 620.Said first and second bound fractions are crooked, thereby this first and second bound fraction is also vertical basically with said second main body 620.For example, said electrode bar 500 is substantially perpendicular to the said first and second electrode parts 111 and 131 and is combined, thereby sterilized water generation unit 400 is erect along first direction D1.Said electrode bar 500 receives from the electric power of the power supply in second main body 620 and this electric power is provided to sterilized water generation unit 400.

First bound fraction 112 of said sterilized water generation unit 400 is connected to first battery lead plate, 110, the second bound fractions 132 and is connected to second battery lead plate 130.So; First convex and the spill electrode bar that are fixed on first bound fraction 112 will offer first battery lead plate 110 from the electric power of said power supply, and second convex and the spill electrode bar that are fixed on second bound fraction 132 will offer second battery lead plate 130 from the electric power of said power supply.Therefore, first convex and spill electrode bar and second convex and spill electrode bar provide electric power to first and second battery lead plates respectively, thereby the polarity of working as first and second battery lead plates can more easily not produce plasma body simultaneously.In addition, the bound fraction with battery lead plate of substantially the same shape is bent and is used for combining, thereby the battery lead plate with substantially the same shape can be applicable to dissimilar water sterilizers.

Lid part 50 covers the open base area of first main body 610.For example, a plurality of open portions 52 with various patterns are formed on the lid part 50, and this lid part 50 covers on the sterilized water generation unit 400 that is installed on first main body 610.Open portion 52 has the shape such as all kinds such as circle, ellipse, Polygons and size.When main body 60 was immersed in the water, through open portion 52, water contacted with sterilized water generation unit 400.In addition, lid part 50 prevents that sterilized water generation unit 400 from directly contacting with user or outer material.Switch 54 can be formed on the lid part 50, manually to operate water sterilizer.

Mount pad 70 is used to install main body 60, and mount pad 70 can comprise that chargeable contact plug recharges electric power is offered main body 60.Main body 60 can comprise and corresponding contact-type socket of chargeable contact plug and rechargeable cell.When main body 60 is installed in 70 last times of mount pad, this main body 60 automatic or manuals charging.Chargingmethod is not limited to above-mentioned method.For example, can come through the inductive emf that does not have other chargeable contact plug or socket mount pad 70 and main body 60 are charged.

According to exemplary embodiment of the present invention, two battery lead plates that have bound fraction in its end combine with formation sterilized water generation unit with opposite way each other, thereby simplify production process and reduce the cost value of producing water sterilizer.

In addition, bound fraction only is bent being bonded to each other, thereby makes the battery lead plate with substantially the same shape can be applicable to various types of immersion type water sterilizers.

According to exemplary embodiment of the present invention; The sterilized water generation unit comprises the battery lead plate of the slit with interlacing line pattern; And these battery lead plates combine with opposite direction (reverse direction), thereby make the intersection efficient of electrode in the zone of minimum, increase to produce sterilized water efficiently.

In addition; Basically shape battery lead plate identical, have bound fraction in lower edge combines to form the sterilized water generation unit with opposite direction; Thereby make that the production process of sterilized water generation unit is simpler, and can reduce the cost value that is used to make the sterilized water generation unit.

In addition, the battery lead plate of spill to be plugging together mold (insert-molding) explained hereafter, therefore do not need to make separately the separate processes of the battery lead plate of convex and spill, thereby can make the electrode bar of water sterilization module easily.

Though described exemplary embodiment of the present invention above; But be to be understood that; Should not limit the invention to these exemplary embodiments, those of ordinary skill in the art can make various changes and modification to the present invention in not breaking away from the desired the spirit and scope of the present invention of hereinafter.

Claims (17)

1. water sterilization module comprises:

The sterilized water generation unit, it comprises:

First battery lead plate, this first battery lead plate comprise first electrode part and first bound fraction, and said first electrode partly has a plurality of first slits that are formed on this first electrode part, and said first bound fraction is outstanding from the edge of said first electrode part.

Second battery lead plate; This second battery lead plate is formed on the top of first battery lead plate and comprises second electrode part and second bound fraction; Said second electrode partly has a plurality of second slits that are formed on this second electrode part, and said second bound fraction is outstanding from the edge of said second electrode part; And

Be arranged on the electrode separation plate between said first and second battery lead plates;

Module bodies, this module bodies have the reception space that receives said sterilized water generation unit; And

Respectively with the said first and second bound fraction bonded, first and second electrode bars to said first and second battery lead plates polarity that differs from one another to be provided respectively.

2. water sterilization module according to claim 1, wherein said first and second battery lead plates combine with opposite direction.

3. water sterilization module according to claim 2; In wherein said first and second slits each has slant pattern, and said first and second battery lead plates combine to make the slant pattern of slant pattern and said second slit of said first slit to intersect.

4. water sterilization module according to claim 1; First curved part that wherein is used for crooked said first bound fraction is formed in the zone that said first bound fraction and the said first electrode part branch interconnect, and second curved part that is used for crooked said second bound fraction is formed in the zone that said second bound fraction and the said second electrode part branch interconnect.

5. water sterilization module according to claim 4, wherein said first and second bound fractions are substantially parallel with the said first and second electrode parts respectively.

6. water sterilization module according to claim 4, wherein said first and second bound fractions are bent to, with respect to said first and second curved parts, basically respectively perpendicular to the said first and second electrode parts.

7. water sterilization module according to claim 6, wherein said first and second bound fractions are crooked along substantially the same direction.

8. water sterilization module according to claim 1, wherein first combined hole passes said first bound fraction formation, and said first electrode bar is combined through passing said first combined hole; And second combined hole passes said second bound fraction and forms, and said second electrode bar is combined through passing said second combined hole.

9. water sterilization module according to claim 8, each in wherein said first and second electrode bars comprise convex-end electrode rod and spill electrode bar, and this spill electrode bar and said module bodies are integrally formed.

10. water sterilization module according to claim 9, wherein said spill electrode bar is integrally formed through insert molding method and said module bodies.

11. a water sterilizer comprises:

The water sterilization module, it comprises:

The sterilized water generation unit, it comprises:

First battery lead plate, this first battery lead plate comprise first electrode part and first bound fraction, and this first electrode partly has a plurality of first slits that are formed on this first electrode part, and said first bound fraction is outstanding from the edge of said first electrode part;

Second battery lead plate; This second battery lead plate is formed on the top of said first battery lead plate and comprises second electrode part and second bound fraction; Said second electrode partly has a plurality of second slits that are formed on this second electrode part, and said second bound fraction is outstanding from the edge of said second electrode part; And

Be arranged on the electrode separation plate between said first and second battery lead plates;

Module bodies, this module bodies have the reception space that receives the sterilized water generation unit; And

Respectively with the said first and second bound fraction bonded, first and second electrode bars, to said first and second battery lead plates polarity that differs from one another to be provided respectively; And

The power supply of voltage is provided to said first and second electrode bars.

12. water sterilizer according to claim 11; Wherein said first and second bound fractions basically respectively with the said first and second electrode partial parallels, and said first and second electrode bars vertically combine with said first and second electrodes part respectively.

13. water sterilizer according to claim 12 further comprises the sub-body that supports said water sterilization module, and has power supply in this sub-body.

14. water sterilizer according to claim 13 further comprises the reception spatial mount pad that is connected to said water sterilization module, so that the storage space of water to be provided.

15. water sterilizer according to claim 11; Wherein said first and second combine to be arranged to be basically perpendicular to the said first and second electrode parts respectively, and said first and second electrode bars combine with said first and second electrodes part respectively abreast.

16. water sterilizer according to claim 15 further comprises the lid part on the reception space that covers said module bodies.

17. water sterilizer according to claim 16 further comprises being used to the receptor that receives said water sterilization module and said power supply is charged.

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