CN217780822U - Soak formula electrode anti-bacteria device - Google Patents

Abstract

The utility model provides a formula of soaking electrode anti-bacteria device, including installing the cavity quick-operation joint on the water container outer wall, be equipped with the cavity with the water container intercommunication in the quick-operation joint of cavity, cavity is equipped with intake passage and the exhalant canal that communicates with the cavity respectively on the quick-operation joint, and cavity still is equipped with on the quick-operation joint of cavity and inserts the electrode group that is used for carrying out electrolytic treatment to the water source of water container in the cavity. The utility model provides a pair of soak formula electrode anti-bacteria device produces hydroxyl and ozone through the electrolysis water to reach the water bacteriostatic action that disinfects to soaking in formula electrode anti-bacteria device, can reduce its treatment cost when improving the bactericidal treatment effect.

Description

Soak formula electrode anti-bacteria device

Technical Field

The utility model relates to a water treatment technical field especially relates to a formula of soaking electrode anti-bacteria device.

Background

At present, along with environmental pollution's gradual aggravation, the water storage containers such as pure water tank, water purification case, the former water tank of purifier, water dispenser on the market, because of mostly being UNICOM with the atmosphere, and its water tank generally in the machine the inside, the most shade and humidity of environment, use the easy bacterium that nourishes of water purification case after a period of time, cause secondary pollution to the water purification, influence drinking water health.

Chinese patent application No. CN201610026019.2 a zinc-plating wastewater water purification system and water purification method, adopt the value that improves waste water BOD/COD under the effect of resin type particle electrode, increase its biodegradability, then get rid of the pollutant in the waste water through biological treatment, thereby improve zinc-plating wastewater COD's clearance, with the water purification treatment mode of getting rid of heavy metal in the waste water, but discover in practice, this treatment mode's sterilization treatment effect needs higher treatment cost if need reach anticipated effect then, its structure is mostly comparatively complicated, cause the pollution to the environment easily.

Therefore, it is desirable to provide a soaking type electrode bacteriostatic device to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a formula of soaking electrode antibacterial device, produces hydroxyl and ozone through the electrolysis water to reach the bacteriostatic action that disinfects to the water that soaks in the formula electrode antibacterial device, can reduce its treatment cost when improving the bactericidal treatment effect.

In order to solve the technical problem, the utility model discloses a technical scheme provide a formula of soaking electrode anti-bacteria device, including installing cavity quick-operation joint 2 on water container 1 outer wall, be equipped with in the cavity quick-operation joint 2 with the cavity 21 of water container 1 intercommunication, independently be equipped with respectively on the cavity quick-operation joint 2 with inhalant canal 22 and the exhalant canal 23 of cavity 21 intercommunication, it inserts to still be equipped with on the cavity quick-operation joint 2 be used for right in the cavity 21 water container 1's water source carries out electrolysis treatment's electrode group 3.

Preferably, the electrode group 3 comprises two parallel anode strips 31 and two parallel cathode strips 32, one ends of the anode strips 31 and the cathode strips 32 are inserted into the hollow quick connector 2, and the other ends are electrically connected with an external power supply as wire insertion pieces.

Preferably, a groove 24 which is recessed outwards and is used for accommodating one end of the electrode group 3 is arranged in the cavity 21, and a supporting portion 25 which is abutted against the electrode group 3 and is used for stably supporting the electrode group 3 is arranged in the groove 24.

Preferably, the supporting portion 25 includes a first baffle 251 disposed between the anode strip 31 and the cathode strip 32, a second baffle 252 disposed between the anode strip 31 and the adjacent inner wall surface of the groove 24, and a third baffle 253 disposed between the cathode strip 32 and the adjacent inner wall surface of the groove 24, wherein the first baffle 251, the second baffle 252, and the third baffle 253 are disposed in parallel.

Preferably, two ends of the hollow quick coupling 2 are respectively provided with a connecting base 26 extending outwards, and the connecting base 26 is provided with a screw hole 27 for a fastening bolt to pass through so as to fasten and mount the hollow quick coupling 2 on the outer wall of the water storage container 1.

Preferably, the water inlet channel 22 and the water outlet channel 23 are symmetrically distributed at two ends of the hollow quick connector 2.

Preferably, the position of the water inlet pipe orifice 221 of the water inlet channel 22 is hermetically connected with a first quick coupling 4 for quickly connecting a water inlet pipe through two first annular sealing rings 222, and the position of the water outlet pipe orifice 231 of the water outlet channel 23 is hermetically connected with a second quick coupling 5 for quickly connecting a water outlet pipe through two second annular sealing rings 232.

Preferably, the hollow quick connector 2 is further provided with a third quick connector 6 for inserting a water level detection probe into the water storage container 1.

Preferably, the anode strip 31 is an electrode made of ruthenium-iridium or iridium-tantalum-tin coating titanium as a base material, and the cathode strip 32 is an electrode made of stainless steel or titanium material.

The utility model has the advantages that: the utility model provides a pair of formula of soaking electrode anti-bacteria device produces hydroxyl and ozone through the electrolysis water to reach the antibacterial action that disinfects to the water in the water storage container, can reduce its treatment cost when improving the bactericidal treatment effect.

Drawings

Fig. 1 is a three-dimensional assembly structure diagram of a soaking type electrode bacteriostatic device provided by the utility model;

FIG. 2 is an enlarged assembly structure view of the immersion type electrode bacteriostatic device provided by the present invention;

fig. 3 is a front view assembly structure diagram of the immersion type electrode bacteriostatic device provided by the utility model;

FIG. 4 is a sectional view of the structure of FIG. 3A;

fig. 5 is a rear view structure diagram of the immersion type electrode bacteriostatic device provided by the utility model.

The names of the parts corresponding to the numerical identifiers in the drawings of the specification are respectively as follows:

a water storage container 1; a hollow quick connector 2; an electrode group 3; a first quick coupling 4; a second quick coupling 5; a third quick connector 6; a cavity 21; a water inlet passage 22; a water outlet channel 23; a groove 24; a support portion 25; a connecting seat 26; a screw hole 27; an anode sheet 31; a cathode sheet 32; a water inlet pipe orifice 221; a first annular seal ring 222; a water outlet pipe orifice 231; a second annular seal ring 232; a first shutter 251; a second baffle 252; and a third barrier 253.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the drawings.

Referring to fig. 1 to 5, the soaking type electrode bacteriostatic device of the present embodiment includes a hollow quick connector 2 installed on an outer wall of a water storage container 1, a cavity 21 communicated with the water storage container 1 is disposed in the hollow quick connector 2, a water inlet passage 22 and a water outlet passage 23 communicated with the cavity 21 are independently disposed on the hollow quick connector 2, and an electrode group 3 inserted into the cavity 21 and used for performing electrolysis treatment on a water source of the water storage container 1 is further disposed on the hollow quick connector 2.

In this embodiment, this application can set up on water storage container 1's bottom or lateral wall, and this application does not do any restriction, when applying external current to electrode group 3, can produce electrolytic reaction and release hydroxyl and ozone through the hydrone that advances water channel 22 and flow into cavity 21 to reach the water to the interior antibacterial effect of disinfecting of overflowing formula electrode bacteriostatic device.

In the embodiment, the electrode group 3 of the present application can continuously electrolyze in water to generate an oxidizing substance, so as to change the oxidation-reduction potential of the water body, thereby achieving the effect of inhibiting the mass propagation of bacteria,

in this embodiment, the electrode assembly 3 of the present application can continuously generate a large amount of oxidized ions, radicals, and free radicals in water during the electrolytic reaction, and under the synergistic effect with the electromagnetic field, these trace amounts of oxidizing substances can effectively prevent the mass propagation of microorganisms, and inhibit the rooting and germination of algae spores in water, thereby reducing the turbidity of circulating water, reducing the generation of biological soft scale, reducing the corrosion under scale, and replacing the addition of bactericide.

Preferably, the electrode assembly 3 includes two parallel anode strips 31 and two parallel cathode strips 32, one end of each of the anode strips 31 and the cathode strips 32 is inserted into the hollow quick connector 2, and the other end is electrically connected to an external power source as an electrical wire insertion piece.

In this embodiment, the power of the over-flow type electrode bacteriostatic device of the present application is generally a low-power design, and then the anode sheet 31 and the cathode sheet 32 can slowly perform complete sterilization and bacteriostatic treatment on water molecules in the water storage container 1.

In this embodiment, the anode sheet 31 and the cathode sheet 32 in this application may be one or more, and this application is not limited in any way, and a certain distance is left between adjacent anode sheets 31 and cathode sheets 32.

In this embodiment, the other end of the anode sheet 31 can be conducted with the anode of the external power source, the other end of the cathode sheet 32 can be conducted with the cathode of the external power source, when the water molecules in the water storage container 1 contact with the anode sheet 31, the water molecules can be in a power-off state, so as to generate an electrolytic reaction and release ozone ions, and the water molecules contacting with the cathode sheet 32 can be in a power-on state, so as to generate an electrolytic reaction and release hydroxyl ions (hydroxyl groups).

Preferably, a groove 24 recessed outward is provided in the cavity 21 for accommodating one end of the electrode group 3 therein, and a support portion 25 abutting against the electrode group 3 for stably supporting the electrode group 3 is provided in the groove 24.

In this embodiment, the groove 24 can ensure that the liquid level can submerge the anode sheet 31 and the cathode sheet 32 to the maximum extent, so as to avoid that the contact surface between the anode sheet 31 and the cathode sheet 32 is in a contact state, so that water molecules cannot be in full contact therewith, and further the electrolytic reaction is affected.

In the present embodiment, the design of the supporting portion 25 enables the anode strip 31 and the cathode strip 32 to be stably disposed in the groove 24, and the phenomena such as deformation and displacement caused by water flow swing are avoided.

Preferably, the supporting portion 25 includes a first barrier 251 disposed between the anode tab 31 and the cathode tab 32, a second barrier 252 disposed between the anode tab 31 and the inner wall surface of the adjacent groove 24, and a third barrier 253 disposed between the cathode tab 32 and the inner wall surface of the adjacent groove 24, wherein the first barrier 251, the second barrier 252, and the third barrier 253 are disposed in parallel with each other.

In this embodiment, the anode sheet 31 and the cathode sheet 32 are spaced apart from each other by the first barrier 251, so that the anode sheet 31 and the cathode sheet 32 are not affected by each other when electrolytic reactions with water molecules respectively occur.

Preferably, two ends of the hollow quick connector 2 are respectively provided with a connecting base 26 extending outwards, and the connecting base 26 is provided with a screw hole 27 for a fastening bolt to pass through so as to fasten the hollow quick connector 2 on the outer wall of the water storage container 1.

Preferably, the water inlet channel 22 and the water outlet channel 23 are symmetrically distributed on both ends of the hollow quick connector 2.

In this embodiment, the symmetrically distributed water inlet channel 22 and water outlet channel 23 can effectively reduce the overall volume of the overflowing sterilizing and disinfecting device, so that the structure is more compact.

Preferably, the position of the water inlet pipe orifice 221 of the water inlet channel 22 is connected with a first quick coupling 4 for quick connection with a water inlet pipe through two first annular sealing rings 222, and the position of the water outlet pipe orifice 231 of the water outlet channel 23 is connected with a second quick coupling 5 for quick connection with a water outlet pipe through two second annular sealing rings 232.

Preferably, the hollow quick connector 2 is further provided with a third quick connector 6 for inserting a water level detection probe into the water storage container 1.

Preferably, the anode tab 31 is an electrode made of ruthenium iridium or iridium tantalum tin coated titanium as a base material, and the cathode tab 32 is an electrode made of stainless steel or a titanium material.

In this embodiment, the anode sheet 31 and the cathode sheet 32 may be electrodes made of other inert metals, and the present application is not limited thereto.

Therefore, the immersion type electrode bacteriostasis device described in fig. 1 to 5 is implemented to generate hydroxyl and ozone by electrolyzing water, so that the water in the immersion type electrode bacteriostasis device is sterilized and bacteriostatically, the sterilization treatment effect is improved, and the treatment cost is reduced.

In addition, the immersion type electrode bacteriostasis device depicted in the figures 1-5 is more beautiful in overall appearance, more compact and simpler in structure.

The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same reason as the protection scope of the present invention.

Claims (9)

1. The utility model provides a formula of soaking electrode bacteriostasis device which characterized in that: including installing cavity quick-operation joint (2) on water container (1) outer wall, be equipped with in cavity quick-operation joint (2) with cavity (21) of water container (1) intercommunication, independently be equipped with respectively on cavity quick-operation joint (2) with water inlet channel (22) and play water passageway (23) of cavity (21) intercommunication, still be equipped with on cavity quick-operation joint (2) insert extremely be used for in cavity (21) right water container's (1) water source carries out electrolysis treatment's electrode group (3).

2. The immersed electrode bacteriostatic device according to claim 1, characterized in that:

the electrode set (3) is internally provided with two anode sheets (31) and two cathode sheets (32) which are arranged in parallel, wherein one end of each anode sheet (31) and one end of each cathode sheet (32) are inserted into the hollow quick connector (2), and the other end of each anode sheet is electrically connected with an external power supply as an electric wire insertion sheet.

3. The immersion electrode bacteriostasis device of claim 2, wherein:

the electrode assembly is characterized in that a groove (24) which is recessed outwards and used for accommodating one end of the electrode assembly (3) is formed in the cavity (21), and a supporting portion (25) which is abutted against the electrode assembly (3) and used for stably supporting the electrode assembly is arranged in the groove (24).

4. The immersion electrode bacteriostasis device of claim 3, wherein:

the supporting part (25) comprises a first baffle plate (251) arranged between the anode sheet (31) and the cathode sheet (32), a second baffle plate (252) arranged between the anode sheet (31) and the inner wall surface of the adjacent groove (24), and a third baffle plate (253) arranged between the cathode sheet (32) and the inner wall surface of the adjacent groove (24), wherein the first baffle plate (251), the second baffle plate (252) and the third baffle plate (253) are arranged in parallel.

5. The immersion electrode bacteriostasis device of claim 1, wherein:

the two ends of the hollow quick connector (2) are respectively provided with a connecting seat (26) extending outwards, and the connecting seats (26) are provided with screw holes (27) for fastening bolts to penetrate through so as to fasten and install the hollow quick connector (2) on the outer wall of the water storage container (1).

6. The immersed electrode bacteriostatic device according to claim 1, characterized in that: the water inlet channel (22) and the water outlet channel (23) are symmetrically distributed on two ends of the hollow quick connector (2).

7. The immersion electrode bacteriostasis device of claim 1, wherein:

the water inlet pipe orifice (221) of the water inlet channel (22) is connected with a first quick coupling (4) for quickly connecting a water inlet pipe through two first annular sealing rings (222) in a sealing manner, and the water outlet pipe orifice (231) of the water outlet channel (23) is connected with a second quick coupling (5) for quickly connecting a water outlet pipe through two second annular sealing rings (232) in a sealing manner.

8. The immersed electrode bacteriostasis device according to any one of claims 1 to 7, wherein: and the hollow quick joint (2) is also provided with a third quick joint (6) for inserting a water level detection probe into the water storage container (1).

9. The immersion electrode bacteriostasis device of claim 2, wherein: the anode sheet (31) is an electrode made of ruthenium iridium or iridium tantalum tin coating titanium as a basic material, and the cathode sheet (32) is an electrode made of stainless steel or a titanium material.

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