CN217780823U

CN217780823U - Cross STREAMING electrode antibacterial device

Info

Publication number: CN217780823U
Application number: CN202220144771.8U
Authority: CN
Inventors: 郭力
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-19
Filing date: 2022-01-19
Publication date: 2022-11-11
Anticipated expiration: 2032-01-19

Abstract

The utility model provides a crossing STREAMING electrode anti-bacteria device, including the chassis and through the upper cover of first ring type seal sealing connection on the chassis, be formed with opening cavity up between chassis and the upper cover, be equipped with inhalant canal and the exhalant canal with the cavity intercommunication on the horizontal cavity chassis, be equipped with the electrode group that is used for carrying out electrolysis treatment to the water of flowing through in the cavity, be equipped with the electric wire inserted sheet of two outside extensions on the electrode group, be equipped with the first through-hole that the power supply line inserted sheet was worn out on the chassis. The utility model provides a pair of cross STREAMING electrode antibacterial device produces hydroxyl and ozone through the electrolysis water to reach the antibacterial action that disinfects to the water in the cross STREAMING electrode antibacterial device, can reduce its treatment cost when improving the bactericidal treatment effect.

Description

Cross STREAMING electrode antibacterial device

Technical Field

The utility model relates to a water treatment technical field especially relates to an overflowing type electrode antibacterial device.

Background

At present, along with the gradual aggravation of environmental pollution, the water storage containers such as the pure water case of purifier, water dispenser, water purification case, former water tank on the market usually, 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 of nourishing of water purification case after a period of time, cause secondary pollution to the water purification, influence drinking water health.

Chinese patent application No. CN201611015293 discloses an overflow type sterilization and disinfection device and water purification equipment, which adopts a treatment method of ultraviolet LED cooperating with a reflective sleeve to realize ultraviolet sterilization of water flowing through a transparent tube, but in practice, it is found that the sterilization treatment effect of the treatment method needs higher treatment cost if desired to achieve the desired effect, and most of the structures are complex, and easily cause pollution to the environment.

Therefore, it is necessary to provide an over-flow 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 cross STREAMING electrode antibacterial device, produces hydroxyl and ozone through the electrolysis water to reach the antibacterial action that disinfects to the water in the cross STREAMING electrode antibacterial device, can reduce its treatment cost when improving the bactericidal treatment effect.

For solving the technical problem, the utility model discloses a technical scheme provide an overflowing type electrode antibacterial device, include chassis 1 and through 11 sealing connection of first ring type seal ring in upper cover 12 on the chassis 1, chassis 1 with be formed with opening cavity 2 up between the upper cover 12, be equipped with on the horizontal cavity chassis 1 with inhalant canal 13 and exhalant canal 14 of cavity 2 intercommunication, be equipped with in the cavity 2 and be used for carrying out electrolysis's electrode group 3 to the water of flowing through, be equipped with two outside electric wire inserted sheets 31 that extend on the electrode group 3, be equipped with the confession on the chassis 1 the first through-hole 15 that electric wire inserted sheet 31 wore out.

Preferably, including positive pole piece 32 and setting in the electrode group 3 negative pole piece 33 of positive pole piece 32 below, two electric wire inserted sheet 31 respectively with positive pole piece 32 with negative pole piece 33 electricity is connected, be equipped with a plurality of second through-holes 321 on the positive pole piece 32, be equipped with on the negative pole piece 33 with a plurality of with the third through-hole 331 that second through-hole 321 corresponds the setting.

Preferably, a spacer 34 is provided between the anode sheet 32 and the cathode sheet 33 to prevent direct contact therebetween.

Preferably, the bottom of the cavity 2 is provided with a support part 21 protruding upwards for supporting the cathode sheet 33.

Preferably, the position of the water inlet pipe mouth 131 of the water inlet channel 13 is hermetically connected with a first quick coupling 16 for quickly connecting a water inlet pipe through a second annular sealing ring 132, and the position of the water outlet pipe mouth 141 of the water outlet channel 14 is hermetically connected with a second quick coupling 17 for quickly connecting a water outlet pipe through a third annular sealing ring 142.

Preferably, the water inlet channel 13 and the water outlet channel 14 are symmetrically distributed at two ends of the chassis 1.

Preferably, the anode strip 32 is an electrode made of ruthenium iridium or iridium tantalum tin coating titanium as a basic material, and the cathode strip 33 is an electrode made of stainless steel or a titanium material.

Preferably, the cathode sheet 33 has the same shape as the anode sheet 32, and is preferably in the form of a mesh or a sheet.

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

Drawings

Fig. 1 is an enlarged structural view of an over-flow electrode bacteriostatic device provided by the utility model;

fig. 2 is an overall structure diagram of an over-flow electrode bacteriostatic device provided by the utility model;

fig. 3 is a top view structural diagram of an over-current electrode bacteriostatic device provided by the present invention;

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

fig. 5 is a top view of the chassis of the over-flow type electrode bacteriostatic device according to the present invention.

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

a chassis 1; a cavity 2; an electrode group 3; a first annular seal ring 11; an upper cover 12; a water inlet passage 13; a water outlet passage 14; a first through hole 15; a first quick connector 16; a second quick coupling 17; a support portion 21; a wire insert 31; an anode sheet 32; a cathode sheet 33; a spacer 34; a water inlet pipe orifice 131; a second annular seal ring 132; a water outlet pipe port 141; a third annular seal ring 142; a second through hole 321; and a third through hole 331.

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 over-flow type electrode bacteriostatic device of the present embodiment includes a chassis 1 and an upper cover 12 hermetically connected to the chassis 1 through a first annular sealing ring 11, a cavity 2 with an upward opening is formed between the chassis 1 and the upper cover 12, a water inlet channel 13 and a water outlet channel 14 communicated with the cavity 2 are disposed on the transverse hollow chassis 1, an electrode group 3 for performing electrolysis treatment on water flowing through is disposed in the cavity 2, two outwardly extending electric wire insertion pieces 31 are disposed on the electrode group 3, and a first through hole 15 through which the electric power supply wire insertion piece 31 penetrates is disposed on the chassis 1.

In this embodiment, when the current applied to the wire insertion piece 31 is conducted to the electrode group 3, the water molecules flowing into the cavity 2 through the water inlet channel 13 can generate an electrolytic reaction and release hydroxyl and ozone, so as to achieve the sterilization and bacteriostasis effects on the water in the over-flow electrode bacteriostasis 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 group 3 includes an anode strip 32 and a cathode strip 33 disposed below the anode strip 32, the two wire insertion pieces 31 are electrically connected to the anode strip 32 and the cathode strip 33, the anode strip 32 is provided with a plurality of second through holes 321, and the cathode strip 33 is provided with a plurality of third through holes 331 corresponding to the second through holes 321.

In this embodiment, the anode plate 32 and the cathode plate 33 of the present application adopt a one-to-one multi-through-hole structure, which can effectively improve the electrolysis efficiency and improve the electrolysis effect, and the principle thereof lies in that water molecules can be in a power-off state when flowing through the anode plate 32, and then can generate an electrolysis reaction and release ozone ions, and the water molecules flowing through the cathode plate 33 can be in a power-on state, and can generate an electrolysis reaction and release hydroxyl ions (hydroxyl groups), and the products of the electrolysis of the anode plate 32 can be gathered in the second through-holes 321, so that the flowing water molecules can all react with each through-hole in the anode plate 32 and the cathode plate 33, and further fully, thereby improving the electrolysis efficiency and improving the electrolysis effect.

Preferably, a separator 34 is provided between the anode sheet 32 and the cathode sheet 33 to prevent direct contact therebetween.

In this embodiment, during the water electrolysis process, the spacer 34 can ensure that the liquid level can submerge the anode sheet 32 and the cathode sheet 33 to the maximum extent, so as to avoid that the water molecules can not be in full contact with the contact surface between the anode sheet 32 and the cathode sheet 33 due to the contact state, thereby affecting the electrolysis reaction.

Preferably, the bottom of the chamber 2 is provided with a support portion 21 protruding upward for supporting the cathode sheet 33.

In this embodiment, in the process of electrolyzing water, if the bottom of the cathode sheet 33 directly contacts with the bottom of the cavity 2, the contact surface between the cathode sheet 33 and the cavity 2 is in a contact state, so that water molecules cannot be in full contact with the cathode sheet 33, thereby affecting the electrolytic reaction.

Preferably, the first quick coupling 16 for quick connection with the inlet pipe is connected to the inlet pipe 131 of the inlet channel 13 in a sealing manner through the second annular sealing ring 132, and the second quick coupling 17 for quick connection with the outlet pipe is connected to the outlet pipe 141 of the outlet channel 14 in a sealing manner through the third annular sealing ring 142.

Preferably, the water inlet channel 13 and the water outlet channel 14 are symmetrically distributed on both ends of the base plate 1.

In this embodiment, the symmetrically distributed water inlet channel 13 and water outlet channel 14 can effectively reduce the overall volume of the overflowing sterilization and disinfection apparatus, so that the structure is more compact.

Preferably, the anode sheet 32 is an electrode made of ruthenium iridium or iridium tantalum tin coated titanium as a base material, and the cathode sheet 33 is an electrode made of stainless steel or a titanium material.

In this embodiment, the anode sheet 32 and the cathode sheet 33 of the present application may also be electrodes made of other inert metals, and the present application is not limited in any way.

In this embodiment, the power of the over-flow electrode bacteriostatic device is generally designed to be high power, so that when water molecules flow to the electrode group 3, the electrode group 3 can immediately perform complete sterilization and bacteriostatic treatment on the flowing water molecules, and the mesh-shaped and sheet-shaped electrode plates can effectively improve the electrolysis efficiency and the electrolysis effect.

Therefore, by implementing the overflowing type electrode bacteriostasis device described in fig. 1 to 5, hydroxyl and ozone are generated by electrolyzing water, so that the effects of sterilizing and bacteriostasis of the water in the overflowing type electrode bacteriostasis device are achieved, and the treatment cost is reduced while the sterilization treatment effect is improved.

In addition, the implementation of the over-flow type electrode bacteriostasis device described in fig. 1-5 has the advantages of more compact and simple structure, and can effectively improve the electrolysis efficiency and the electrolysis effect.

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

1. An overflowing electrode bacteriostasis device is characterized in that: including chassis (1) and through first ring type seal (11) sealing connection upper cover (12) on chassis (1), chassis (1) with be formed with opening cavity (2) up between upper cover (12), be equipped with on chassis (1) with inhalant canal (13) and exhalant canal (14) of cavity (2) intercommunication, be equipped with in cavity (2) and be used for carrying out electrolysis treatment's electrode group (3) to the water of flowing through, be equipped with two outside electric wire inserted sheets (31) that extend on electrode group (3), be equipped with the confession on chassis (1) first through-hole (15) that electric wire inserted sheet (31) were worn out.

2. The over-flow electrode bacteriostatic device according to claim 1, characterized in that:

including anode strip (32) and setting in electrode group (3) cathode strip (33) of anode strip (32) below, two electric wire inserted sheet (31) respectively with anode strip (32) with cathode strip (33) electricity is connected, be equipped with a plurality of second through-holes (321) on anode strip (32), be equipped with on cathode strip (33) with a plurality of with third through-hole (331) that second through-hole (321) correspond the setting.

3. An over-flow electrode bacteriostatic device according to claim 2, characterized in that: and a spacer (34) for avoiding direct contact between the anode sheet (32) and the cathode sheet (33) is arranged between the anode sheet and the cathode sheet.

4. The over-flow electrode bacteriostatic device according to claim 2, characterized in that: the bottom of the cavity (2) is provided with a supporting part (21) which protrudes upwards and is used for supporting the cathode sheet (33).

5. An over-flow electrode bacteriostatic device according to any one of claims 1 to 4, characterized in that:

the water inlet pipe is characterized in that a first quick connector (16) used for being connected with a water inlet pipe quickly is connected to the position of a water inlet pipe orifice (131) of the water inlet channel (13) through a second annular sealing ring (132), and a second quick connector (17) used for being connected with a water outlet pipe quickly is connected to the position of a water outlet pipe orifice (141) of the water outlet channel (14) through a third annular sealing ring (142).

6. The over-flow electrode bacteriostatic device according to claim 1, characterized in that: the water inlet channel (13) and the water outlet channel (14) are symmetrically distributed at two ends of the chassis (1).

7. The over-flow electrode bacteriostatic device according to claim 2, characterized in that: the anode sheet (32) is an electrode made of ruthenium iridium or iridium tantalum tin coating titanium as a basic material, and the cathode sheet (33) is an electrode made of stainless steel or a titanium material.

8. An over-flow electrode bacteriostatic device according to claim 2, characterized in that: the cathode sheet (33) has the same shape as the anode sheet (32), and is in the shape of a mesh or a sheet.