CN-224226763-U - Overcurrent type electrolytic water structure

Abstract

The utility model provides an overcurrent type water electrolysis structure, which relates to the technical field of water electrolysis equipment and aims to solve the problem of low electrolysis efficiency of a water electrolysis module adopting a single-flow-channel structure in the prior art, the overcurrent type water electrolysis structure comprises an outer shell and two electrode plates, an electrolysis cavity is arranged in the outer shell, the two electrode plates are relatively arranged in the electrolysis cavity in parallel, the water inlet and the water outlet which are communicated with the electrolysis cavity are respectively arranged at two ends of the outer shell, a water inlet channel which is arranged along the first direction of the outer shell is arranged at one end, close to the water inlet, of the outer shell, the water inlet is connected with the water inlet channel, a plurality of water inlet holes which are arranged along the second direction are arranged at one side, close to the electrolysis cavity, of the water inlet channel, the water inlet holes are distributed in the first direction, and the water inlet channel is communicated with the electrolysis cavity through the plurality of water inlet holes. According to the utility model, by adopting a multi-runner parallel structure, water flows uniformly through the electrode plates, so that tap water is electrolyzed more fully, and the electrolysis efficiency is higher.

Inventors

• YU BINJIE

Assignees

• 昆山泰瑞克智能科技有限公司

Dates

Publication Date

20260512

Application Date

20250609

Claims (10)

1. 1. The utility model provides an overcurrent formula electrolysis water structure, its characterized in that includes shell body (1) and two electrode slices (7) be provided with electrolysis cavity (15) in shell body (1), two electrode slices (7) relatively parallel set up in electrolysis cavity (15) shell body (1) both ends be provided with respectively with water inlet (2) and delivery port (3) of electrolysis cavity (15) intercommunication be close to in shell body (1) water inlet (12) that one end of water inlet (2) was provided with along water inlet channel (12) that first direction of shell body (1) set up, water inlet (2) with water inlet channel (12) are connected water inlet channel (12) be close to one side of electrolysis cavity (15) is provided with a plurality of inlet openings (13) that set up along the second direction, inlet opening (13) are distributed in first direction, water inlet channel (12) pass through a plurality of inlet opening (13) with electrolysis cavity (15) intercommunication.
2. 2. An overcurrent electrolyzed water structure according to claim 1, wherein a plurality of the water inlet holes (13) are uniformly distributed along the water inlet channel (12), and the diameters of the plurality of the water inlet holes (13) gradually increase from the side close to the water inlet (2) to the side far from the water inlet (2).
3. 3. An overcurrent type electrolytic water structure according to claim 1, wherein the centers of the plurality of water inlet holes (13) are opposed between the two electrode plates (7).
4. 4. An overcurrent water electrolysis structure according to claim 1, wherein the first side and the second side are respectively provided on opposite sides of the first direction of the outer casing (1), the first side and the second side in the outer casing (1) are respectively provided with two clamping grooves (14) which are arranged in parallel at intervals, the clamping grooves (14) are arranged in an extending manner along the second direction, and two sides of the two electrode plates (7) are respectively clamped in the clamping grooves (14).
5. 5. An overcurrent water electrolysis structure according to claim 1, further comprising an end cap (5), wherein the outer housing (1) has an assembly port communicating with the electrolysis chamber (15) at an end near the water outlet (3), and wherein the end cap (5) is mounted in a closed manner at the assembly port.
6. 6. The overcurrent type electrolytic water structure according to claim 5, wherein a plurality of limiting blocks (52) are arranged on one side, close to the electrolytic cavity (15), of the end cover (5), the limiting blocks (52) are arranged along a first direction, two limiting grooves (521) matched with the electrode plates (7) are formed in the limiting blocks (52), and one ends, close to the end cover (5), of the two electrode plates (7) are respectively clamped in the limiting grooves (521) of the limiting blocks (52).
7. 7. An overcurrent water electrolysis structure according to claim 5, wherein the pins (71) of the two electrode plates (7) extend through the end caps (5) to the outside thereof, respectively, and the two electrode plates (7) are connected to a wire harness (6) at the outside of the outer case (1), respectively.
8. 8. The overcurrent type electrolytic water structure according to claim 7, wherein the outer housing (1) is provided with a mounting mouth (11) at the periphery of the mounting mouth (11), a mounting groove (112) is provided around the mounting mouth (11), a clamping edge (51) is provided on the end cover (5), the clamping edge (51) protrudes out of a cover plate thereof toward a side close to the electrolytic cavity (15), the end cover (5) is mounted in the mounting mouth (11) and the clamping edge (51) is clamped in the mounting groove (112).
9. 9. An overcurrent water electrolysis structure according to claim 8, wherein a sealing groove (53) is formed on the side of the end cover (5) facing away from the electrolysis cavity (15), the pins (71) of the two electrode plates (7) are respectively connected with the wire harness (6) from the sealing groove (53), a first pouring sealant (8) is poured into the sealing groove (53), an end sealing groove (111) is formed between the end cover (5) and the periphery of the mounting nozzle (11), and a second pouring sealant (9) is poured into the end sealing groove (111).
10. 10. An overcurrent water electrolysis structure according to claim 1, wherein the water outlet (3) is provided at a side of one of the electrode sheets (7) away from the other electrode sheet (7), and the water inlet (2) and the water outlet (3) are both provided in a first direction.

Description

Overcurrent type electrolytic water structure Technical Field The utility model relates to the technical field of water electrolysis equipment, in particular to an overcurrent type water electrolysis structure. Background Tap water contains a certain amount of chloride ions, which are derived from the dissolution of minerals on the one hand and from the chlorine ions brought by the chlorination on the other hand. When the water containing chlorine ions is electrolyzed, the chlorine ions on the anode of the electrode plate are oxidized to generate hypochlorous acid, and meanwhile, a small amount of strong oxidants such as hydroxyl, ozone and the like are generated, so that the electrolyzed water has extremely strong broad-spectrum sterilization effect. In the operation of the module, water molecules (H 2 O) are decomposed into hydrogen ions (H +) and oxygen ions (O -), and oxygen ions serving as anions react with other water molecules around the water molecules to generate hydroxyl groups (OH -), and at this time, a small amount of secondary amino acid (HCIO) containing trace chlorine components in tap water is also decomposed into HCI -、O- to generate disinfection and sterilization substances such as dissolved oxygen (O -、O3-) anions. The electrolyzed water has strong bactericidal effect on escherichia coli, staphylococcus aureus, candida albicans and the like. The preparation has the advantages of sterilizing effect on various viruses, wide application range, customizing special modules, easy decomposition, no harm to environment and human body, no toxic or side effect, no need of blending and convenient use. The existing electrolyzed water module generally adopts a single-flow-channel structure from a water inlet to a water outlet, as disclosed in patent application document 202220848595.6 for manufacturing sterilized water, a fluid inlet and a fluid outlet which are communicated with an internal containing cavity are arranged on a main shell, the fluid inlet and the fluid outlet are respectively arranged on two first side walls, and the fluid inlet and the fluid outlet are staggered. The electrolysis module only adopts a single-flow-channel structure, the water flow distribution is uneven, the electrolysis efficiency is low, the main shell of the electrolysis module is connected in a way of clamping and connecting the upper cover body and the lower cover body, the assembly process is complex, the pressure resistance is limited, the sealing surface is large, and the sealing operation is complex. Disclosure of utility model The utility model aims to provide an overcurrent type electrolytic water structure which solves the problem of low electrolytic efficiency caused by the adoption of a single-flow-channel structure in the prior art, and adopts a multi-flow-channel parallel structure, so that water flows uniformly through electrode plates, tap water is electrolyzed more fully, and the electrolytic efficiency is higher. The utility model provides an overcurrent type electrolytic water structure which comprises an outer shell and two electrode plates, wherein an electrolytic cavity is arranged in the outer shell, the two electrode plates are oppositely and parallelly arranged in the electrolytic cavity, a water inlet and a water outlet which are communicated with the electrolytic cavity are respectively arranged at two ends of the outer shell, a water inlet channel which is arranged along a first direction of the outer shell is arranged at one end, close to the water inlet, of the outer shell, the water inlet is connected with the water inlet channel, a plurality of water inlet holes which are arranged along a second direction are arranged at one side, close to the electrolytic cavity, of the water inlet channel, the water inlet holes are distributed in the first direction, and the water inlet channel is communicated with the electrolytic cavity through the plurality of water inlet holes. As a preferable mode of the utility model, the plurality of water inlet holes are uniformly distributed along the water inlet channel, and the diameters of the plurality of water inlet holes gradually increase from one side close to the water inlet to one side far from the water inlet. As a preferable mode of the utility model, the centers of the plurality of water inlet holes are opposite to the space between the two electrode plates. As a preferable mode of the utility model, the two opposite sides of the outer shell in the first direction are respectively provided with a first side and a second side, the first side and the second side in the outer shell are respectively provided with two clamping grooves which are arranged in parallel at intervals, the clamping grooves extend along the second direction, and the two sides of the two electrode plates are respectively clamped in the clamping grooves. As a preferable mode of the utility model, the electrolytic cell further comprises an end cover, wherein the outer shell is