CN210457593U - Water treatment device and water tank - Google Patents

Abstract

The utility model discloses be applied to the kitchen guarding field, the utility model provides a water treatment facilities and basin is provided, water treatment facilities is used for providing the active water through handling to the basin, this water treatment facilities includes the casing, this casing encloses into the water treatment cavity, be provided with first polar plate and the second polar plate of connecting the direct current power supply the two poles of the earth respectively in the water treatment cavity, first polar plate and second polar plate set up relatively, first polar plate and second polar plate are fixed in one side of casing through the electrically conductive fastener of connecting the direct current power supply the two poles of the earth respectively, when this realizes fixing these two polar plates through this fastener, it supplies power still to have realized two polar plates facing to, therefore simple structure is reliable, the cost of the whole water treatment facilities of effectual reduction.

Description

Water treatment device and water tank

Technical Field

The utility model relates to a kitchen guarding field especially relates to a water treatment facilities and basin.

Background

The electrolytic water module generates an electrolytic reaction with water by electrifying the two oppositely arranged electrode plates, namely bubbles are generated on the two electrode plates to float upwards and finally generate electrolytic water, and the electrolytic water has the sterilization and cleaning effects, so the electrolytic water module is more and more widely applied. At present, the structure that the two polar plates are fixed on the module and the electric connection mode that the two polar plates are connected with an external direct current power supply are relatively complex, so that the cost of the whole water electrolysis module is higher.

The above is only for the purpose of assisting understanding of the technical solutions of the present invention, and does not represent an admission that the above is the prior art.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a water treatment device and basin, aim at solve the polar plate installation and the electric connection structure unreasonable of current brineelectrolysis module, lead to its problem with a higher cost.

In order to achieve the above object, the utility model provides a pair of water treatment facilities for provide the active water through handling to the basin, water treatment facilities includes the casing, and the casing encloses into water treatment cavity, is provided with first polar plate and the second polar plate of connecting the direct current power supply the two poles of the earth respectively in the treatment cavity, and first polar plate and second polar plate set up relatively, and first polar plate and second polar plate are fixed in one side of casing through the electrically conductive fastener of connecting the direct current power supply the two poles of the earth respectively.

Optionally, the conductive fastener comprises: the screw rod of the first bolt sequentially passes through the first polar plate, the second polar plate and the corresponding through hole on the shell, and part of the screw rod of the first bolt extending out of the shell is matched with a first nut, so that the nut of the first bolt is tightly attached to the first polar plate;

and the second bolt sequentially penetrates through the corresponding through holes on the second pole plate and the shell, and part of the screw rod of the second bolt extending out of the shell is matched with the first nut, so that the nut of the second bolt is tightly attached to the second pole plate.

Optionally, a yielding hole is formed in the position, opposite to the nut of the second bolt, of the first pole plate;

the first bolt and the second bolt are positioned at the position close to the middle of the two pole plates, and a distance is kept between the first bolt and the second bolt, and the distance ranges from 30mm to 230 mm;

the second polar plate is provided with a through hole for partial screw rod of the first bolt to pass through, an annular gap is kept between the outer wall of the partial screw rod and the inner wall of the corresponding through hole, and the width range of the gap is 0.3-5 mm;

the screw rod of first bolt passes first polar plate and second polar plate, and is provided with the lantern ring that supplies first bolt to pass between first polar plate and second polar plate, and the lantern ring is the insulating part.

Optionally, the housing is made of an insulating material;

a part of screw rod of the first bolt extending out of the shell is matched with a second nut, a metal gasket penetrating through the first bolt is arranged between the first nut and the second nut, and the metal gasket is connected with the first stage of a direct current power supply through a power line, so that the power line is electrically connected with the first bolt and supplies power to the first polar plate;

the screw part of the second bolt extending out of the shell is matched with a second nut, another metal gasket penetrating through the first bolt is arranged between the first nut and the second nut, and the other metal gasket is connected with the other stage of the direct-current power supply through another power line, so that the other power line is electrically connected with the first bolt and supplies power to the first polar plate;

the first bolt is connected with an anode power supply, and the second bolt is connected with a cathode power supply;

or the first bolt is connected with the cathode power supply, and the second bolt is connected with the anode power supply.

Optionally, the first bolt penetrates through the inner wall surface and the outer wall surface of the shell and is further respectively provided with a first sealing ring and a second sealing ring in a penetrating manner, when the first bolt is screwed down, the first sealing ring is pressed between the second pole plate and the inner wall surface of the shell through the nut, and the second sealing ring is pressed between the first nut and the outer wall surface of the shell;

the second bolt penetrates through the inner wall surface and the outer wall surface of the shell and is further provided with a first sealing ring and a second sealing ring in a penetrating mode, when the second bolt is screwed down through the nut, the first sealing ring is extruded between the second polar plate and the inner wall surface of the shell, and the second sealing ring is extruded between the first nut and the outer wall surface of the shell.

Optionally, the water treatment device further comprises a plurality of fixing bolts and a plurality of lantern rings, wherein screw rods of the fixing bolts sequentially penetrate through the through holes of the first polar plate, the lantern rings, the through holes of the second polar plate and the through holes of the shell, part of the screw rods of the fixing bolts extending out of the shell is matched with the first nuts, the nuts of the fixing bolts are pressed on the first polar plate, one end of each lantern ring is pressed below the first polar plate, the other end of each lantern ring is pressed above the second polar plate of the lantern ring, and the distance between the first polar plate and the second polar plate is limited;

the fixing bolt penetrates through the shell to be provided with a first sealing ring and a second sealing ring, and when the fixing bolt is screwed down by the first nut, the first sealing ring and the second sealing ring are extruded and deformed.

Optionally, a through hole communicated with the water tank is formed in one side of the water treatment cavity facing the water tank, and water in the water treatment cavity enters the water tank through the through hole;

the shell is detachably connected with one side of the water tank in a sealing way;

still be provided with water pump and division board in the casing, the region at first polar plate and second polar plate place separates through the region at division board and water pump place, has seted up the water hole on the division board, and the through-hole is including arranging the last trompil of top in and setting up the lower trompil in the below in, and the water in the basin gets into the water pump place region through the lower trompil to get into the region at first polar plate and second polar plate place through the water hole.

Optionally, the first polar plate and the second polar plate are arranged obliquely and oppositely to form an oblique interplate liquid channel;

the included angle theta between the first polar plate and the second polar plate in the vertical direction is preferably 1.25-88.75 degrees;

the liquid main body of (A) is water, or a solvent or a solute aqueous solution, or a suspension;

the distance between the first polar plate and the second polar plate immersed in the liquid is 1.2mm to 9.0 mm;

the direct current voltage between the first polar plate and the second polar plate is 2V to 36V;

the water treatment device is provided with a through hole for supplying water to the water tank for circulation, the through hole comprises an upper opening arranged above and a lower opening arranged below, water in the water tank enters the cavity through the lower opening, the lower end of the first polar plate and the lower end of the second polar plate define a lower drainage port of the liquid channel between the plates, the upper end of the first polar plate and the upper end of the second polar plate define an upper drainage port of the liquid channel between the plates, active water is formed after the working treatment of the first polar plate and the second polar plate, and the active water enters the water tank through the upper opening; the lower drainage port is close to the lower opening hole, or the upper drainage port is close to the upper opening hole; or the water tank further comprises a partition board arranged at the opening part of the shell, the partition board can be detachably connected with the opening part, and the opening part is fixedly connected with a water tank through hole which is reserved on the side wall of the water tank and has a size matched with the size of the opening part and is used for circulating liquid.

In order to achieve the above object, the present invention also provides a water tank, wherein the water tank comprises the above water treatment device, the water tank comprises a side wall and a bottom surface, the side wall or the bottom surface is provided with a water tank through hole communicated with the water treatment cavity, and a sealing ring is arranged between the outer side wall surface of the casing and the water tank.

Optionally, the water tank comprises a control panel, the control panel comprises a control part, an input part and a power part, the input part is connected with the control part, the power part is connected with the control part, and the power part is respectively connected with the anode power supply and the cathode power supply;

when the water treatment device is arranged on the side wall of the water tank, the water treatment device is arranged on the same side of the control panel, and the width of the projection of the control panel on the bottom of the water tank is larger than or equal to the width of the projection of the water treatment device on the bottom of the water tank.

Through the technical scheme, the utility model discloses a water treatment facilities for provide the active water through handling to the basin, this water treatment facilities includes the casing, this casing encloses into the water treatment cavity, be provided with first polar plate and the second polar plate of connecting the direct current power supply the two poles of the earth respectively in the water treatment cavity, first polar plate and second polar plate set up relatively, first polar plate and second polar plate are fixed in one side of casing through the electrically conductive fastener of connecting the direct current power supply the two poles of the earth respectively, when realizing fixing these two polar plates through this fastener, still realized supplying power to two polar plates, therefore simple structure is reliable, the cost of the whole water treatment facilities of effectual reduction.

Drawings

FIG. 1 is a schematic view of the water electrolysis apparatus of the present invention;

FIG. 2 is a cross-sectional view of a water treatment device and sink in accordance with an embodiment of the present invention;

fig. 3 is a partially enlarged view of a portion a in fig. 2;

fig. 4 is a partially enlarged view of a portion B in fig. 2;

FIG. 5 is a cross-sectional view in another direction of the water treatment device of FIG. 2;

fig. 6 is a partially enlarged view of a portion C in fig. 5;

FIG. 7 is a perspective view of a water treatment apparatus according to an embodiment of the present invention;

FIG. 8 is a partial cross-sectional view of a water treatment device according to another embodiment of the present invention;

fig. 9 is a perspective view of a sink according to an embodiment of the present invention;

fig. 10 is a functional block diagram of a control panel of the water tank of the present invention.

Reference numerals:

an electrolytic water device 100; a first plate 101; a second plate 102; a first bubble 103; a second bubble 104; a lower drainage opening 105; an upper discharge port 106; a water treatment device 200; a housing 201; a first plate 202; a second plate 203; a power supply line 204; a power supply line 205; a first bolt 206; a gap 207; a collar 208; a first seal ring 209; a second seal ring 210; a metal gasket 211; a second nut 212; a first nut 213; a second bolt 214; an escape through-hole 215; a third nut 216; a fixing bolt 286; a partition plate 217; an upper opening 218; a lower opening 219; a water pump 220; water passing holes 221; a partition 222; a flange 223; a water tank 300; the corresponding side 301 of the sink; a lower opening 302; an upper opening 303; an intermediate discharge port 304; a control panel 305; a control part 3051; a power supply section 3052; an input 3053.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The utility model provides a water treatment device, as in fig. 2, water treatment device 200's first polar plate 202 and second polar plate 203 pass through electrically conductive fastener and fix the one side in casing 201, and is concrete, this electrically conductive fastener can be bolt or screw etc., be bolted connection in the picture, be provided with first polar plate 202 and second polar plate 203 of connecting the DC power supply the two poles of the earth respectively in the processing cavity, first polar plate 202 and second polar plate 203 set up relatively, first polar plate 202 and second polar plate 203 are fixed at the casing through the electrically conductive fastener of connecting the DC power supply the two poles of the earth respectively. Specifically, through holes for bolts to pass through are formed in the first pole plate 202, the second pole plate 203 and one side of the casing, and the bolts pass through the through holes and are matched with nuts to fix the first pole plate 202, the second pole plate 203 and the casing 201. Therefore, the first polar plate 202 and the second polar plate 203 are fixed and electrically connected with the direct current power supply through the conductive fasteners, so the structure mode is simple and reliable, and the cost of the whole water treatment device can be effectively reduced.

Further, as shown in fig. 3 to 8, the bolt includes a first conductive bolt 206, a screw of the first conductive bolt 206 sequentially passes through the first pole plate 202 and the second pole plate 203 and a corresponding through hole on the casing 201, and a part of the screw of the first conductive bolt 206 extending out of the casing 201 is matched with a first nut 213, so that a nut of the first conductive bolt 206 is tightly attached to the first pole plate 202; the bolt further comprises a conductive second bolt 214, the second bolt 214 sequentially penetrates through the second pole plate 203 and the corresponding through hole in the shell 201, and a part of a screw rod of the second bolt 214 extending out of the shell 201 is matched with the first nut 213, so that a nut of the second bolt 214 is tightly attached to the second pole plate.

Further, the first pole plate 202 of the water treatment device is positioned at one side close to the water tank 300, and the second pole plate 203 is positioned at one side close to the wall surface of the shell 201, wherein the screw of the first bolt 206 sequentially passes through the through hole of the first pole plate 202, the collar 208, the through hole 24 of the second pole plate 203 and the through hole of the shell 201, and the first nut 213 is matched with the part of the screw of the first bolt 206 extending out of the shell 201, and the first pole plate 202 and the second pole plate 203 are fixed at one side of the shell 201 by screwing the first nut 213; meanwhile, the nut of the first bolt 206 presses on the first pole plate 202, and one end of the collar 208 abuts against the first working surface of the first pole plate 202, and the other end abuts against the second working surface of the second pole plate 203, and defines a distance between the two.

The second bolt 214 passes through the through hole of the second pole plate 203 and the through hole of the casing 201 in sequence, a part of the screw rod of the first bolt 206 extending out of the casing 201 is matched with the first nut 213, and the nut of the second bolt 214 fixes the second pole plate 203 on one side of the casing 201 by screwing the first nut 213. The number of the first bolts 206 and the second bolts 214 is at least two, or a plurality of bolts, and the first bolts and the second bolts are uniformly distributed on the surfaces of the first pole plate 202 and the second pole plate 203, so that power supply is more sufficient, and the situation that one bolt is in a problem and still can be used is avoided; and the two polar plates are fixed more firmly. The collar 208 allows the first plate 202 and the second plate 203 to be spaced at the same distance, thereby achieving a parallel arrangement of the two plates.

The first bolt 206 and the second bolt 214, in addition to fixing the two plates, also achieve the purpose of supplying power to the two plates respectively. Specifically, the first bolt 206 extends out of the screw portion of the housing 201 and then is matched with the second nut 212, a metal gasket 211 passing through the first bolt 206 is arranged between the first nut 213 and the second nut 212, the metal gasket 211 is connected with the first stage of the dc power supply through the power line 204, the power line 204 is electrically connected with the first bolt 206 by screwing the first nut 213 and the second nut 212, and further, the annular conductive surface of the nut portion of the first bolt 206 opposite to the surface of the first pole plate 202 is in close contact with the surface of the first pole plate 202, and finally, the first stage of the dc power supply is electrically connected with the first pole plate 202 through the power line 204. Similarly, the second bolt 214 also electrically connects the other pole of the dc power source to the second pole plate 203 through the power line 205 by the first nut 213 and the second nut 212. Here, the positive electrode of the dc power source, i.e., the anode power source, may be electrically connected to the second plate 203, and the negative electrode of the dc power source, i.e., the cathode power source, may be electrically connected to the first plate 202, but the polarities of the power sources connected to the first plate 202 and the second plate 203 may be interchanged.

The collar 208 is made of an insulating material, the housing 201 is made of an insulating material, the second pole plate has a through hole for the screw of the first bolt 206 to pass through, and the aperture of the through hole of the second pole plate 203 is preferably larger than the diameter of a part of the screw of the first bolt 206, because the bolts and the pole plates are made of a conductive material, when the first bolt 206 passes through the through hole of the second pole plate 203, the first bolt 206 and the second pole plate 203 are insulated and cannot be electrically connected, so that the first bolt 206 is only electrically connected with the first pole plate 202. The screw of the first bolt 206 is disposed at the center of the through hole corresponding to the second pole plate 203, and an annular gap 207 is maintained between the outer wall of the screw and the inner wall of the corresponding through hole, the range of the gap 207 is 0.3-5mm, in this embodiment, the gap is 0.5mm, so that after two poles of a direct current power supply are electrically connected with the first pole plate 202 and the second pole plate 203 respectively, electrical insulation is formed between the outer wall of the screw and the inner wall of the through hole of the second pole plate 203, a power supply short circuit phenomenon between the two pole plates is not caused, and normal operation of the two pole plates is realized.

The first bolt 206 and the second bolt 214 for supplying power to the two plates are preferably disposed near the middle of the two plates, and a distance is maintained between the two bolts, and the distance is in a range of 30mm to 230mm, and the distance in this embodiment is 55 mm.

Furthermore, a first sealing ring 209 and a second sealing ring 210 are further arranged on the inner wall surface and the outer wall surface of the shell 201 through which the first bolt 206 and the second bolt 214 respectively penetrate, when the first bolt 206 and the second bolt 214 are screwed through nuts, the first sealing ring 209 is squeezed between the second pole plate 203 and the inner wall surface of the shell 201, and the second sealing ring 210 is squeezed between the first nut 213 and the outer wall surface of the shell 201, so that the part of the bolt penetrating through the shell is sealed, and water in the water treatment cavity is prevented from leaking from the through hole of the shell 201. The first seal ring 209 and the second seal ring 210 are preferably an elastomeric material such as rubber, silicone, or the like.

Further, a plurality of fixing bolts 286 are included, screws of the fixing bolts 286 sequentially pass through the through holes of the first pole plate 202, the collar 208, the through hole of the second pole plate 203 and the through hole of the shell 201, a part of the screws of the fixing bolts 286 extending out of the shell 201 is matched with the first nuts 213, and nuts of the fixing bolts 286 fix the first pole plate 202 and the second pole plate 203 on one side of the shell 201 by tightening the first nuts 213; at the same time, the nuts of the fixing bolts 286 press against the first plate 202, and one end of the collar 208 abuts against the first working surface of the first plate 202, and the other end abuts against the second working surface of the second plate 203, and defines the distance therebetween. The fixing bolt 286 penetrates through the inner wall surface and the outer wall surface of the shell 201 and is further provided with a first sealing ring 209 and a second sealing ring 210 in a penetrating mode, when the fixing bolt 286 is screwed down, the second pole plate 203 and the inner wall surface of the shell 201 squeeze the first sealing ring 209, therefore, the bolt penetrates through the shell to be sealed, and water in the water treatment cavity is prevented from leaking from the through hole of the shell 201. The first seal ring 209 and the second seal ring 210 are preferably an elastomeric material such as rubber, silicone, or the like. The plurality of fixing bolts 286 are not connected to a power source and are uniformly distributed on the surface of the plate, and in the embodiment, 6 fixing bolts 286 pass through the collar 208 with the same height, so that the distance between the first plate and the second plate is defined as the height of the collar 208.

When the first plate 202 and the second plate 203 are respectively connected to the positive electrode and the negative electrode of the dc power supply, it can be known from the principle of electrolytic reaction that the reduction reaction on the first plate 202 electrically connected to the positive electrode of the dc voltage generates a strong corrosion action, so as to generate a strong corrosion action on the first plate 202 and the first bolt 206 and the fixing bolt 286 electrically connected to the plate, and therefore the first bolt 206 and the fixing bolt 286 are also made of the same corrosion-resistant material as the plate, such as titanium.

In another embodiment, when the first plate 202 and the second plate 203 are respectively connected to the negative electrode and the positive electrode of the dc power supply, it can be known that the second bolt 214 is also made of the same corrosion-resistant material as the plates, such as titanium, and the first plate 202 and the second plate 203 are connected to the positive electrode and the negative electrode of the dc power supply, respectively, at this time, only one bolt of the second bolt 214 needs to be made of the corrosion-resistant material, and it is not necessary to select the corrosion-resistant material for the bolts of the first bolt 206 and the fixing bolt 286 as in the above scheme, and since the bolt cost of the corrosion-resistant material is higher than that of a common bolt, the cost of the whole water treatment apparatus 200 can be reduced by this scheme.

Further, in another embodiment, an escape through hole 215 is formed at a position opposite to a nut of the second bolt 214 for fixing the second plate 203 to the first plate 202, as shown in fig. 6 to 8, according to the principle of water electrolysis reaction, if the distance between two plates for connecting two poles of the dc power supply is smaller, the larger the electrolytic reaction between the two plates is, the more bubbles are generated, and the distance between the nut of the second bolt 214 and the first plate 202 is smaller than the distance between the first plate 202 and the second plate 203, so that the nut of the second bolt 214 is more likely to generate the electrolytic water reaction, and thus the corrosion effect on the second bolt 214 is large, at this time, the relative distance between the nuts of the first plate 202 and the second bolt 214 can be increased by the escape through hole 215, so as to reduce the depth of the electrolytic water reaction, the diameter of the through hole 18 is preferably larger than the diameter of the nut of the second bolt 214, the relative distance is further increased, and the water electrolysis reaction effect is further reduced, so that the corrosion effect is reduced, and the service life of the bolt is prolonged.

In one embodiment, to achieve the fixing of the housing 201 of the water treatment apparatus 200 with respect to one side of the water tank 300, the housing 201 is provided with a connection structure with a corresponding side of the water tank 300, the connection structure including at least two through holes to pass through at least two columns on the corresponding side of the water tank and connected with the water tank by a fastener. As shown in fig. 2 and 4, a flange 223 may be formed at the opening of the housing 201, the flange 223 has at least two through holes, two columns are disposed on the corresponding side 301 of the water tank 300, the columns may be fixed to one side of the water tank 300 by welding or riveting, the columns are shown as screws 304, the screws 304 penetrate through the through holes of the flange 223, and fastening members such as third nuts 216 are screwed to fix the housing to the corresponding side 301 of the water tank 300.

Further, the first side is detachably and hermetically connected with the outer wall surface of the water tank 300, at this time, a third sealing ring 218 is additionally arranged between the first side and the outer wall surface, as shown in fig. 8, the third sealing ring 218 can be embedded in a groove on an outward flange 223, and then when the shell is fixed to the water tank 300, the outward flange is tightly contacted with the outer wall surface to extrude the third sealing ring 218, so that sealing is realized, and water in the water treatment cavity is prevented from being leaked.

In another embodiment, the water treatment device 200 further comprises a water pump 220, and the water flow formed by the water inlet pipe and the water outlet pipe of the water pump 220 accelerates the water flow of the liquid channel between the plates. By adding the water pump 220 in the water treatment device 200, bubbles generated during the water electrolysis reaction on the two polar plates can be floated upwards from the liquid channel between the two polar plates and enter the water tank 300, so that the generation speed of the bubbles on the two polar plates is accelerated, the more electrolyzed water is in the water tank 300, and the sterilization and cleaning effects are enhanced.

Specifically, as shown in fig. 8, the water pump 220 is installed in the water treatment device 200, the area where the water electrolysis device is located is separated from the water pump 22 by a partition plate 217, a water through hole 221 is formed in the partition plate 217, and an outlet of the water pump 220 faces the lower drainage port. The lower opening 219 is disposed in a region where the water pump 220 is located, and preferably, the water passing holes 221 are uniformly distributed on the partition plate 217, so that when the water pump 220 works, water in the water tank 300 is sucked through the lower opening 219 and discharged from the water outlet pipe of the water pump 220, accelerated water flow can be uniformly discharged from the water passing holes 221, and water flow coming out of the partition plate 217 uniformly enters between the two pole plates. If the partition plate 217 is not arranged, the water flow speed from the vicinity of the water outlet pipe of the water pump 220 is high, and the water flow speed of the surrounding area is low, so that the water flow entering the two polar plates is not uniform, and the accelerated rising of bubbles on the two polar plates is influenced.

The utility model discloses still provide an electrolytic water device, as shown in fig. 1, in an embodiment of the utility model, this electrolytic water device 100 is used for immersing in liquid, produce the bubble after the circular telegram, this electrolytic water device includes the first polar plate 101 that the electricity is connected with the positive pole power to and the second polar plate 102 that the electricity that sets up relatively with first polar plate 101 is connected with the negative pole power, first polar plate 101 has the working face towards second polar plate 102, the during operation produces first bubble 103, second polar plate 102 has the working face towards first polar plate 101, the during operation produces second bubble 104, first polar plate 101 and the relative setting of second polar plate 102 slope form the interplate liquid channel of slope. The main body of the liquid is water, and the electrolytic water function can be realized, and the main body of the liquid can be tap water, or water added with a solvent or a solute, or suspension.

Specifically, in this embodiment, the voltage between the two electrode plates is 12V, the liquid is tap water, the gas in the first bubbles 103 is oxygen, and the gas in the second bubbles 104 is hydrogen.

Specifically, in another embodiment of the present invention, the first plate 101 is connected to the positive pole of the dc power supply (i.e. the above-mentioned anode power supply), and the second plate 102 is connected to the negative pole of the dc power supply (i.e. the above-mentioned cathode power supply), wherein the voltage of the dc power supply is 2V to 36V, and in this embodiment, 5V dc is used. The first plate 101 and the second plate 102 are disposed in parallel and keep a predetermined distance therebetween, and the distance is 0.8mm to 15mm, and the distance is 1.5mm in this embodiment, in order to ensure efficient generation of the electrolyzed water product. The adopted liquid is ordinary tap water, after being electrified, the first polar plate 101 and the second polar plate 102 generate electrolytic reaction with water, hydrogen radicals (H +) and hydroxyl radicals (OH-) generated by the electrolytic reaction respectively generate reduction reaction and oxidation reaction on the working surfaces of the first polar plate 101 and the second polar plate 102 to generate a first bubble 103 containing oxygen and a second bubble 104 containing hydrogen, wherein one part of the first bubble 103 and one part of the second bubble 104 are respectively attached to the first polar plate 101 and the second polar plate 102 and one part of the first bubble rises along a liquid channel between the first polar plate and the second polar plate, and in the rising process of the bubbles, liquid water around the bubbles rises to form a determined gas-water flow channel rising along the liquid channel, so that the liquid containing active ingredients enters the water treatment cavity and then enters the water tank through the through hole. The included angle theta between the first polar plate 101 and the second polar plate 102 which is inclined relative to the vertical direction (the direction of gravity is zero degree, the included angle between the inclined plane and the zero axis of gravity is an inclined angle) is preferably 1.25-88.75 degrees, the angle adopted in the embodiment is 5 degrees, and due to the buoyancy effect of bubbles, certain ascending gas-water flow can be formed between the two polar plates, and the gas-water flow can take away the bubbles at the initial stage of bubble condensation, so that the bubble generation efficiency is improved; on the other hand, the wall surface of the upper side polar plate can be washed, so that the treatment efficiency of the upper side polar plate is further improved, and in the embodiment, the upper side polar plate is the cathode plate.

In another embodiment of the present invention, the distance between the first plate 101 and the second plate 102 is preferably 9.0mm to 1.2mm, the inclined angle θ between the inclined plane and the zero axis of gravity is preferably 42.5 degrees, because the inclined plane is vertically arranged relative to the two plates, the water level height can be lowered, i.e. the purpose of completely immersing the plates is achieved in a manner of reducing the water amount, and if the two plates are horizontally arranged, the floating of hydrogen and oxygen generated during the electrolytic reaction is not facilitated, and the accumulation of bubbles can reduce the production efficiency of new bubbles, thereby seriously affecting the purposes of sterilizing and cleaning the organic matters in the electrolytic water. The angle of 42.5 degrees can achieve better balance between reducing the water level requirement and discharging air bubbles.

Specifically, in one embodiment of the present invention, as shown in fig. 1, when the two plates are powered on and then operate, the working surface of the first plate 101 is formed with a first bubble 103, and the first bubble 103 floats along the liquid channel between the plates; the working surface of the second plate 102 is formed with second bubbles 104, and the second bubbles 104 float along the liquid channel between the plates; and a lower drain opening 105 defining an interplate liquid path from the lower end of the first plate 101 to the lower end of the second plate 102 and an upper drain opening 106 defining an interplate liquid path from the upper end of the first plate 101 to the upper end of the second plate 102. The first bubbles 103 are oxygen generated by water electrolysis, the second bubbles 104 are hydrogen generated by water electrolysis, and the bubbles are lighter than water and naturally float up along the liquid channel between the plates, so that a slow water flow is generated, the water flow enters from the lower drainage port 105, floats up along the liquid channel between the plates after generating the first bubbles 103 and the second bubbles by electrolysis, and is discharged from the upper drainage port 106, and the electrolyzed water is formed to play a role in sterilization and cleaning.

In another embodiment, the first plate 101 and the second plate 102 may be a multi-plate stacked structure, that is, a plurality of first plates 101 and second plates 102 are sequentially stacked, for example, the plates are 4 layers, and the first plate 101, the second plate 102, the first plate 101 and the second plate 102 are respectively arranged in sequence along one direction in a liquid, and the first bubbles 103 and the second bubbles 104 can be generated between each two plates relative to the two plates, so that more bubbles can be generated, and a larger amount of electrolyzed water is formed to achieve better sterilization and cleaning effects.

In another embodiment of the utility model, the main part of liquid is the aqueous solution, and the solute of adoption is sodium chloride, when adopting 0.9% sodium chloride solution as liquid, effectively increases the conductivity to improve the current density between first polar plate and the second polar plate, improve the efficiency that generates the electrolysis aquatic products, because the existence of chlorine element has improved effective chlorine component, further improved the ability of handling the filth. Other solutes such as sodium sulfate, sodium citrate, etc. can also be used to increase the efficiency of the electrolyzed water product.

The polar plate is made of a conductive material such as metal, and since acidic electrolyzed water can generate a chemical reaction on common conductive metal such as iron or steel to generate a corrosion effect, the conductive material is easy to select and match with a corrosion-resistant material such as graphite or a metal material such as titanium, platinum, ruthenium, iridium and the like, so that the polar plate cannot be corroded when working for a long time.

The utility model discloses still provide a water treatment facilities 200, be used for showing this kind of water treatment facilities 200 like fig. 2 to fig. 8, as shown in fig. 2, do the utility model discloses a water treatment facilities 200 of an embodiment is used for installing in one side of basin 300, and water treatment facilities 200 includes casing 201, and casing 201 encloses into the water treatment cavity, is provided with foretell brineelectrolysis device 100 in the water treatment cavity, is provided with the through-hole that supplies the water current circulation between water treatment cavity and the basin 300, and water in the water treatment cavity gets into basin 300 through the through-hole, also has the pending liquid in the basin to pass through the through-hole simultaneously and flows into in the water treatment cavity. In this embodiment, the through hole through which the water flow flows is a window opening toward the water tank 300, and the water flow with the active material flows into the water tank 300 through the window opening and the opening on the side of the water tank 300. The housing 201 of the water treatment apparatus 200 is opened to one side so as to be mounted on one side wall surface of the water tank 300, and is circulated with the water in the water tank 300 through the through hole, so that the water in the water tank 300 flows into the water treatment apparatus 200 through the through hole, and the air bubbles are generated and then flow into the water tank 300 through the through hole, thereby sterilizing and cleaning the object in the water tank 300. The through holes may be a plurality of independent holes, a plurality of holes may be communicated in a certain pattern (not shown), or an integral window (not shown).

Specifically, in another embodiment of the present invention, as shown in fig. 2, the through hole comprises an upper opening 303 disposed above and a lower opening 302 disposed below, the water in the water tank 300 enters the water treatment chamber through the lower opening 302, flows through the water electrolysis device 100 for treatment, and the water containing the first bubbles 103 and the second bubbles 104 enters the water tank 300 through the upper opening 303. By arranging the upper opening 303 and the lower opening 302, a smooth flow passage is formed by water flow generated by electrolytic reaction in the water treatment device 200, that is, water in the water tank 300 enters from the lower opening 302 to form water flow, and flows out of the upper opening 303 to enter the water tank 300 after floating through the liquid passage between the plates. The upper opening 303 may be an opening above the mid-line of the flow path defined by the basin, which cooperates with the obliquely disposed interplate liquid passages to facilitate the discharge of treated water into the basin. The preferred use is where the liquid in the basin floods the upper opening 303.

In another embodiment, referring to fig. 1 and 2, the water treatment device 200 is further described, wherein the working surface of the water treatment device 200 including the first plate 202 (which functions exactly as the first plate 101 in the water electrolysis device 100) is formed with the first air bubbles 103, and the first air bubbles 103 float along the liquid channel between the plates; the working surface of the second plate 203 (which has the same function as the second plate 102 in the water electrolysis device 100) is formed with a second bubble 104, and the second bubble 104 floats along the liquid channel between the plates; and the lower end of the first polar plate 202 and the lower end of the second polar plate 203 define a lower drainage port of an interplate liquid channel (the function of the lower drainage port 105 in the water electrolysis device 100 is completely the same), and the lower drainage port is arranged close to the lower opening 302, after the first and second bubbles 104 are generated, ascending air water flowing obliquely upwards is formed between the first polar plate and the second polar plate, so that a negative pressure zone is formed at the lower drainage port, untreated water can flow into the lower drainage port nearby, untreated water does not contain hydrogen and oxygen ions, and new active substances are generated on the polar plates. The upper end of the first polar plate 202 and the upper end of the second polar plate 203 define an upper outlet of a liquid channel between the plates (the function is completely the same as that of the upper outlet 106 in the electrolytic water device 100), and the active water containing the first bubbles 103 and the second bubbles 104 is discharged from the upper outlet, mixed in the water treatment cavity and flows into the water tank from the upper opening 303, so that the uniform active water can treat the object to be treated in the water tank. In order to distribute the water flow of the water flow channel uniformly among the liquid channels between the plates, the lower opening 302 may be a plurality of openings, and may be respectively and uniformly arranged near the lower drainage opening.

In further embodiments, the working surface of the first plate 202 is formed with a first gas bubble 103, the first gas bubble 103 floating along the interplate liquid channel; the working surface of the second plate 203 is formed with a second bubble 104, and the second bubble 104 floats along the liquid channel between the plates; the upper end of the first polar plate 202 and the upper end of the second polar plate 203 define an upper outlet of a liquid channel between the plates, after the first bubble 104 and the second bubble 104 are generated, an ascending gas-water flow which flows obliquely upwards is formed between the first polar plate and the second polar plate, so that a high-concentration active water area which concentrates the first bubble 103 and the second bubble 104 to gush out is formed at the upper outlet, and the upper outlet is arranged close to the upper opening 303, so that the high-concentration active water can directly enter the water tank to treat the object to be treated in the water tank. In order to distribute the water flow of the water flow channel uniformly among the liquid channels between the plates, the upper opening 303 may be a plurality and may be respectively and uniformly arranged near the upper discharge port.

The water treatment apparatus 200 has an opening on the side facing the water tank 300, and at this time, the housing 201 of the water treatment apparatus 200 encloses a water treatment chamber together with the side wall of the water tank 300, and the side of the housing facing the water tank has a window, and the side wall of the water tank 300 has a tank through hole for flowing a liquid.

Further, in addition to the upper and lower discharge ports provided at the upper and lower sides, a plurality of intermediate discharge ports 304 may be provided at the middle portion, as shown in fig. 9. Thereby facilitating the discharge of the bubbles.

In addition, in another embodiment of the present invention, as shown in fig. 8, the water treatment apparatus 200 further includes a partition 222 disposed at the opening, the partition 222 and the housing together enclose a water treatment chamber, the partition 222 is detachably connected to the opening, at this time, the through hole is disposed on the partition 222, respectively, the upper opening 218 disposed above the partition 222 and the lower opening 219 disposed below the partition 222, the partition 222 can be connected to the opening of the housing facing the water tank side by means of a buckle, the partition 222 can be at the same height as the plane of the opening or lower than the plane, so as to facilitate the fixing of the housing to the side wall of the water tank 300, at this time, the side wall of the water tank 300 reserves a water tank through hole adapted to the size of the opening for flowing liquid.

Because the parameters of the water treatment device 200 are different for different application products, such as the power of the plate electrodes, i.e., the capacity of electrolyzing water, and the shapes and sizes of the two plate electrodes, which cause the positions of the lower drainage opening and the upper drainage opening of the plate electrodes to be different relative to the lower opening 219 and the upper opening 218, respectively, and therefore the positions of the upper opening 218 and the lower opening 219 corresponding to the plate electrodes are also different, compared to the above solution without the partition 222, by adding the partition 222 to the water treatment device 200, only the positions of the upper opening 218 and the lower opening 219 on the partition 222 need to be modified, and the positions of the upper opening 303 and the lower opening 302 on the water tank 300 need not to be modified, so that the universality of the water treatment device 200 for matching the water tank 300 is enhanced, and the production efficiency of the water tank 300 is indirectly improved.

The utility model discloses still provide a basin 300, as shown in fig. 2 to 9, contain the water treatment facilities 200 that show in the picture in the basin, a side of basin 300 that this embodiment is disclosed has the basin through-hole that supplies the pending water circulation, install foretell water treatment facilities 200 in the through-hole outside, this basin 300 still is provided with control panel 305, as shown in fig. 10, control panel 305 includes control portion 3051, input portion 3053 and power portion 3052, input portion 3053 connection control portion 3051, power portion 3052 connection control portion 3051, input portion 3053 receives external control command, control portion 3051 controls the cathode power supply and the anode power supply of power portion 3052 output power supply according to control command, as shown in fig. 10, anode power supply connection identification is V +, cathode power supply connection identification is V-. The two poles V-and V + of the output power source are connected to the corresponding first and second bolts 206 and 214 to supply power to the electrolyzed water assembly so that the electrolyzed water assembly operates to generate active water.

The control unit 3051 may further control the power supply unit 3052 to output dc power at intervals according to different electrolysis shift commands set by the input unit 3053, and specifically, the adjustment of the electrolysis depth shift is realized by setting the time interval or the time width of the dc power output at equal intervals. Of course, a command such as a timing operation may be provided through the input unit 3053.

Specifically, the control unit 3051 may be formed as a metal flange on the entire water tank 300 on the side of the opening of the water tank 300, and a through hole may be formed in the metal flange so that the control panel 21 is exposed to allow a user to perform a key operation on the input unit 3053.

Preferably, the width of the projection of the control panel 305 on the bottom of the water tank 300 is greater than or equal to the width of the projection of the water treatment device 200 on the bottom of the water tank 300. Thus, when the water tank 300 is installed, the water treatment apparatus 200 does not interfere with the wall surface where the water tank 300 is installed, and the water tank 300 can be installed as a whole.

In another embodiment of the present invention, the water tank 300 comprises a bottom surface, a water tank through hole for flowing water to be treated is provided on the bottom surface, the above-mentioned water treatment device 200 is installed on the lower side of the through hole, the water treatment device comprises a first pole plate 202 and a second pole plate 203 which are obliquely arranged, by obliquely arranging the first pole plate 202 and the second pole plate 203 (the included angle theta between the inclined plane and the zero axis of gravity is preferably 45 degrees to 88.75 degrees relative to the vertical direction as the included angle theta between the two pole plates is an inclined angle, the angle adopted in this embodiment is 85 degrees, due to the buoyancy of the air bubbles, a certain ascending air water flow is formed between the two pole plates, and the air water flow takes away the air bubbles at the initial stage of bubble condensation, so that the efficiency of generating the air bubbles is improved, on the other hand, the wall surface of the upper pole plate can be washed, so as to further improve the, in this embodiment, the upper plate is an anode plate.

In the description herein, references to the description of the terms "first embodiment," "second embodiment," "example," etc., mean that a particular method, apparatus, or feature described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, methods, apparatuses, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

The above is only the preferred embodiment of the present invention, and not the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings or the direct or indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a water treatment facilities for provide the active water through handling to the basin, its characterized in that, water treatment facilities includes the casing, the casing encloses into water treatment cavity, be provided with first polar plate and the second polar plate of connecting the direct current power supply two poles of the earth respectively in the water treatment cavity, first polar plate with the second polar plate sets up relatively, first polar plate with the second polar plate is fixed through the electrically conductive fastener of connecting the direct current power supply two poles of the earth respectively one side of casing.

2. The water treatment device of claim 1, wherein the electrically conductive fastener comprises:

the screw rod of the first bolt sequentially penetrates through the first polar plate, the second polar plate and the corresponding through hole on the shell, and the partial screw rod of the first bolt extending out of the shell is matched with a first nut, so that the nut of the first bolt is tightly attached to the first polar plate;

and the second bolt sequentially penetrates through the second polar plate and the corresponding through hole on the shell, and the second bolt extends out of part of the screw rod of the shell and is matched with the first nut, so that the nut of the second bolt is tightly attached to the second polar plate.

3. The water treatment device as claimed in claim 2, wherein a yielding hole is formed at a position of the first pole plate facing the nut of the second bolt;

the first bolt and the second bolt are positioned at the position close to the middle of the two pole plates, a distance is kept between the first bolt and the second bolt, and the distance ranges from 30mm to 230 mm;

the second polar plate is provided with a through hole for partial screw rods of the first bolt to pass through, an annular gap is kept between the outer wall of the partial screw rod and the inner wall of the corresponding through hole, and the width range of the gap is 0.3-5 mm;

the screw rod of the first bolt penetrates through the first pole plate and the second pole plate, a lantern ring for the first bolt to penetrate through is arranged between the first pole plate and the second pole plate, and the lantern ring is an insulating part.

4. A water treatment device as claimed in claim 2 or 3, wherein said housing is of an insulating material;

a part of screw rod of the first bolt extending out of the shell is matched with a second nut, a metal gasket penetrating through the first bolt is arranged between the first nut and the second nut, and the metal gasket is connected with one stage of a direct current power supply through a power line, so that the power line is electrically connected with the first bolt and supplies power to the first polar plate;

the second bolt extends out of a screw rod part of the shell and is matched with a second nut, another metal gasket penetrating through the first bolt is arranged between the first nut and the second nut, and the other metal gasket is connected with the other stage of the direct-current power supply through another power line, so that the other power line is electrically connected with the first bolt and supplies power to the first polar plate;

the first bolt is connected with an anode power supply, and the second bolt is connected with a cathode power supply;

or the first bolt is connected with a cathode power supply, and the second bolt is connected with an anode power supply.

5. The water-treating device according to claim 2 or 3,

the first bolt penetrates through the inner wall surface and the outer wall surface of the shell and is respectively provided with a first sealing ring and a second sealing ring in a penetrating manner, when the first bolt is screwed down through a nut, the first sealing ring is extruded between the second polar plate and the inner wall surface of the shell, and the second sealing ring is extruded between the first nut and the outer wall surface of the shell;

the second bolt penetrates through the inner wall surface and the outer wall surface of the shell and is further provided with a first sealing ring and a second sealing ring in a penetrating mode, when the second bolt is screwed down through a nut, the first sealing ring is extruded between the second polar plate and the inner wall surface of the shell, and the second sealing ring is extruded between the first nut and the outer wall surface of the shell.

6. The water treatment device of claim 1, further comprising a plurality of fixing bolts and a collar, wherein the bolts of the fixing bolts sequentially pass through the through holes of the first pole plate, the collar, the through holes of the second pole plate and the through holes of the shell, and a first nut is matched with the part of the bolts extending out of the shell, the nuts of the fixing bolts press on the first pole plate, one end of the collar abuts against the lower surface of the first pole plate, and the other end of the collar abuts against the upper surface of the second pole plate of the collar and limits the distance between the first pole plate and the second pole plate;

the fixing bolt penetrates through the shell and is provided with a first sealing ring and a second sealing ring, and when the fixing bolt is screwed down, the first sealing ring and the second sealing ring are extruded and deformed by the first nut.

7. The water treatment device as claimed in claim 1, wherein a through hole communicating with the water tank is formed at a side of the water treatment chamber facing the water tank, and water in the water treatment chamber enters the water tank through the through hole;

the shell is detachably connected with one side of the water tank in a sealing way;

still be provided with water pump and division board in the casing, first polar plate with the region at second polar plate place passes through the division board with the region at water pump place separates, the water hole has been seted up on the division board, the through-hole is including arranging the last trompil of top in and setting up the lower trompil in the below in, water in the basin passes through the lower trompil gets into the water pump place region, and passes through the water hole gets into first polar plate with the region at second polar plate place.

8. The water treatment device of claim 1, wherein the first plate and the second plate are disposed in an inclined opposing relationship to form an inclined interplate liquid channel;

the included angle theta between the first polar plate and the second polar plate in the vertical direction is 1.25-88.75 degrees;

the liquid main body is water, or a solvent or a solute aqueous solution, or a suspension;

the distance between the first polar plate and the second polar plate immersed in the liquid is 0.8mm to 15 mm;

the direct current voltage between the first polar plate and the second polar plate is 2V to 36V;

the water treatment device is provided with a through hole for supplying water to the water tank for circulation, the through hole comprises an upper opening arranged above and a lower opening arranged below, water in the water tank enters the cavity through the lower opening, the lower end of the first polar plate and the lower end of the second polar plate define a lower drainage port of the liquid channel between the plates, the upper end of the first polar plate and the upper end of the second polar plate define an upper drainage port of the liquid channel between the plates, active water is formed after the working treatment of the first polar plate and the second polar plate, and the active water enters the water tank through the upper opening; the lower drainage port is close to the lower opening hole, or the upper drainage port is close to the upper opening hole; or the water tank further comprises a partition plate arranged at the opening part of the shell, the partition plate can be detachably connected with the opening part, and the opening part is fixedly connected with a water tank through hole which is reserved on the side wall of the water tank and has a size matched with that of the water tank through hole and is used for circulating liquid;

the water treatment device comprises a plurality of first polar plates and a plurality of second polar plates which are sequentially stacked and immersed in the liquid.

9. A sink comprising a water treatment device according to any one of claims 1 to 8, the sink comprising a side wall and a bottom wall, the side wall or the bottom wall being provided with a sink through-hole communicating with the water treatment chamber, and a sealing ring being provided between the housing and an outer side wall surface of the sink.

10. The sink according to claim 9, wherein the sink comprises a control panel, the control panel comprises a control portion, an input portion and a power portion, the input portion is connected to the control portion, the power portion is connected to the control portion, and the power portion is respectively connected to an anode power source and a cathode power source; when the water treatment device is arranged on the side wall of the water tank, the water treatment device is arranged on the same side of the control panel, and the width of the projection of the control panel on the bottom of the water tank is larger than or equal to the width of the projection of the water treatment device on the bottom of the water tank.

Images