CN212051664U

CN212051664U - Mixed electrolysis equipment

Info

Publication number: CN212051664U
Application number: CN202020036139.2U
Authority: CN
Inventors: 郑宇�
Original assignee: Zhejiang Shuixiong Technology Co ltd
Current assignee: Zhejiang Shuixiong Technology Co ltd
Priority date: 2020-01-08
Filing date: 2020-01-08
Publication date: 2020-12-01
Anticipated expiration: 2030-01-08

Abstract

The utility model discloses a mixed electrolysis device, which comprises a box body, a liquid inlet system, a power supply system and a mixed electrolysis bath, wherein the liquid inlet system, the power supply system and the mixed electrolysis bath are fixedly arranged in the box body; the mixed electrolytic tank adopts a laminated structure and comprises a shell, wherein the shell comprises two baffle plates, a cathode positioning plate, an anode positioning plate and an interelectrode partition plate; the cathode positioning plate, the anode positioning plate and the interelectrode partition plate are of rectangular frame-shaped structures, so that an inner cavity is formed in the shell, a water inlet slow-release cavity and a water outlet slow-release cavity are respectively formed in the bottom and the top of the inner cavity, the cathode plate is fixed in the cathode positioning plate, and the anode plate is fixed in the anode positioning plate; the baffle is provided with a water inlet hole and a water outlet hole, and the liquid inlet system provides electrolyte for the mixed electrolytic cell; adopt the mixed electrolysis trough of lamination formula, the inside fluting of lamination and installation polar plate separate into the runner of electrolyte through the polar plate with the inner chamber, set up lamination quantity as required, accomplish seamless stack electrolysis group section, electrolysis trough compact structure, the equipment of being convenient for, the electrolysis is abundant effectual.

Description

Mixed electrolysis equipment

Technical Field

The utility model belongs to the technical field of the electrolysis generator, especially, relate to a mix electrolysis equipment.

Background

The mechanism for preparing the electrolyzed water is called as an electrolyzed water generator; when the solution added with a certain proportion of raw materials passes through the electrolytic cell, under the action of direct current, the anode and the solution interface generate oxidation reaction, and the cathode and the solution interface generate reduction reaction to prepare the required product. At present, most of mixed electrolytic tanks serving as key components of mixed electrolytic generators adopt a mixed electrolytic tank formed by inserting a plurality of electrode plates into a circular pipeline after being positioned and separated by plastic insulating gaskets, the structure is complex, the assembly difficulty is high, part of inlet water does not flow through the electrolysis between the electrode plates and directly flows out during the work, and the electrolysis effect is poor; in addition, the current electrolysis generator also has the problem of unstable dosing proportion caused by unstable tap water flow.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a mixed electrolysis equipment wherein adopts the mixed electrolysis trough of lamination formula, and the inside fluting of lamination installs the polar plate, and the polar plate embedding is fixed, separates into the runner of a plurality of electrolyte through the polar plate with the inner chamber, makes electrolyte fully pass through the electrode plate electrolysis, improves electrolytic efficiency to mixed electrolysis trough compact structure, and the equipment of being convenient for is favorable to electrolysis equipment's popularization and application.

The utility model relates to a mixed electrolysis device, which comprises a box body, a liquid inlet system, a power supply system and a mixed electrolysis bath, wherein the liquid inlet system, the power supply system and the mixed electrolysis bath are fixedly arranged in the box body; the power supply system provides a direct-current electrolysis power supply for the mixed electrolytic tank, the mixed electrolytic tank adopts a laminated structure and comprises a shell, and the shell comprises two parallel and opposite baffles, and a cathode positioning plate, an anode positioning plate and an interelectrode partition plate which are arranged between the two baffles in a superposed manner; the cathode positioning plates, the anode positioning plates and the interelectrode partition plates are in rectangular frame structures, so that an inner cavity is formed in the shell, a water inlet slow-release cavity and a water outlet slow-release cavity are respectively formed in the bottom and the top of the inner cavity, a cathode plate is fixed between the water inlet slow-release cavity and the water outlet slow-release cavity in each cathode positioning plate, and an anode plate is fixed between the water inlet slow-release cavity and the water outlet slow-release cavity in each anode positioning plate; the positions of the baffle plate corresponding to the water inlet slow release cavity and the water outlet slow release cavity are respectively provided with a water inlet hole and a water outlet hole; the liquid inlet system is connected with the water inlet hole and used for providing electrolyte for the mixed electrolytic cell.

Further, the liquid inlet system comprises a tap water filter, a flowmeter, an electromagnetic valve and a hydraulic proportional dosing pump which are sequentially connected; the hydraulic proportional dosing pump sucks raw material liquid into the mixing tank according to a set proportion by utilizing the pressure of tap water to mix with the tap water, and the water outlet end of the hydraulic proportional dosing pump is connected with the water inlet hole of the mixing electrolytic tank through a pipeline.

Furthermore, the outer side of each baffle plate is provided with a stainless steel base plate, each baffle plate, each cathode positioning plate, each anode positioning plate and each interelectrode partition plate are connected by adopting a plurality of pull screws, and two ends of each pull screw penetrate through the stainless steel base plate to extend out and are fastened through nuts.

Furthermore, each cathode positioning plate is provided with a plurality of cathode plates at intervals along the length direction, each anode positioning plate is fixed with an anode plate, the anode plate is a long strip sheet with the length direction in the same direction as that of the anode positioning plate, and gaps for the circulation of electrolyte are arranged between the cathode plate and the anode plate and between the adjacent cathode plates.

Furthermore, the inner sides of the cathode positioning plate and the anode positioning plate are provided with positioning notches for fixing the corresponding cathode plate and the anode plate; the edge parts of the cathode positioning plate and the anode positioning plate are also provided with fractures for the corresponding cathode plate and the anode plate to extend out from the side surfaces.

Furthermore, the water inlet hole and the water outlet hole are both provided with internal threads; the joints of all the parts are sealed by pouring epoxy resin; the internal thread is arranged for installing the water inlet or outlet connecting component.

Furthermore, the cathode plate and the anode plate extend out towards different sides, and the extending parts of the cathode plate and the anode plate are provided with wiring holes; convenient wiring and reasonable structure.

The utility model has the advantages that: the utility model discloses a mixed electrolysis equipment adopts the mixed electrolysis trough of lamination formula, and the inside fluting of lamination installs the polar plate, separates into the runner of electrolyte through the polar plate with the inner chamber, sets up lamination quantity as required, accomplishes seamless stack electrolysis group section, mixes electrolysis trough compact structure, and the equipment of being convenient for is favorable to electrolysis equipment's popularization and application.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. In the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the hybrid electrolytic cell;

FIG. 3 is a left side view of FIG. 1;

FIG. 4 is a schematic diagram of a stainless steel gasket structure;

FIG. 5 is a schematic view of a baffle structure;

FIG. 6 is a schematic view of the structure of the cathode positioning plate (with the cathode plate mounted);

FIG. 7 is a schematic structural view of a cathode positioning plate (with the cathode plate removed);

FIG. 8 is a schematic view of an inter-electrode spacer structure;

FIG. 9 is a schematic view of the structure of the anode positioning plate (with the anode plate mounted).

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

As shown in fig. 1 to 9: the mixed electrolysis equipment comprises a box body 7, a liquid inlet system, a power supply system and a mixed electrolysis bath, wherein the liquid inlet system, the power supply system and the mixed electrolysis bath are fixedly arranged in the box body 7; the power supply system provides a direct-current electrolysis power supply for the mixed electrolytic tank, the mixed electrolytic tank adopts a laminated structure and comprises a shell, and the shell comprises two parallel and opposite baffles 01, and a cathode positioning plate 02, an anode positioning plate 03 and an interelectrode partition plate 05 which are arranged between the two baffles 01 in a superposed manner; the cathode positioning plates 02 and the anode positioning plates 03 are arranged at intervals and are separated from each other by the interelectrode partition plate 05, the cathode positioning plates 02, the anode positioning plates 03 and the interelectrode partition plate 05 are of rectangular frame-shaped structures, so that an inner cavity is formed in the shell, a water inlet slow-release cavity 3 and a water outlet slow-release cavity are respectively formed in the bottom and the top of the inner cavity, a cathode plate 4 is fixed between the water inlet slow-release cavity 3 and the water outlet slow-release cavity in each cathode positioning plate 02, and an anode plate 5 is fixed between the water inlet slow-release cavity 3 and the water outlet slow-release cavity in each anode positioning plate 03; the baffle 01 is provided with a water inlet hole 6 and a water outlet hole 2 at the positions corresponding to the water inlet slow release cavity and the water outlet slow release cavity respectively; the liquid inlet system is connected with the water inlet hole and is used for providing electrolyte for the mixed electrolytic cell; mix the electrolysis trough and fix on box 7, electrolyte passes through the inlet opening 6 and gets into in the slowly-releasing chamber of intaking 3 of mixing the electrolysis trough lower extreme from the inlet opening through the inlet fluid system, along with lasting the injection of electrolyte, the liquid level steadily rises, flows through the clearance between negative plate 4 and the anode plate 5 to carry out abundant electrolysis, electrolyte gets into out the slowly-releasing chamber of water after the electrolysis, and flows out by apopore 2, the utility model discloses a mix the electrolysis trough, adopt lamination formula structure, the inside fluting of lamination is installed the polar plate, separates into the runner of electrolyte with the inner chamber through the polar plate, can set up lamination quantity as required, accomplishes seamless stack electrolysis group section, mixes electrolysis trough compact structure, and the equipment of being convenient for is favorable to electrolysis equipment's.

In this embodiment, the liquid inlet system comprises a tap water filter 11, a flow meter 10, an electromagnetic valve 9 and a hydraulic proportional dosing pump 8 which are connected in sequence; the hydraulic proportional dosing pump 8 sucks raw material liquid into the mixed electrolytic tank according to a set proportion by utilizing the pressure of tap water to mix the raw material liquid with the tap water, the water outlet end of the hydraulic proportional dosing pump 8 is connected to the water inlet hole 6 of the mixed electrolytic tank through a pipeline, a tap water filter 11 filters insoluble impurities in the tap water, the on-off of the tap water pipeline is controlled through an electromagnetic valve 9, the hydraulic proportional dosing pump 8 accurately and stably adds the raw material liquid with a stable proportion into the mixed electrolytic tank for the tap water with different flow rates according to a set proportion under the pushing of water power to form electrolyte, and the electrolyte discharged from the hydraulic proportional dosing pump 8 enters the mixed electrolytic tank through a pipeline to.

In the embodiment, the outer side of each baffle plate 01 is provided with a stainless steel backing plate 04, each baffle plate 01, the cathode positioning plate 02, the anode positioning plate 03 and the inter-electrode separator plate 05 are connected by a plurality of pull screws 1, and two ends of each pull screw 1 penetrate through the stainless steel backing plate 04 to extend out and are fastened through nuts; the pull screw rods 1 evenly surround the edge parts of the laminations, so that the connection is stable and the sealing is ensured.

In this embodiment, a plurality of cathode plates 4 are arranged on each cathode positioning plate 02 at intervals along the length direction, an anode plate 5 is fixed on each anode positioning plate 03, the anode plate 5 is a long strip-shaped sheet with the length direction in the same direction as the length direction of the anode positioning plate 03, and gaps for electrolyte to flow are formed between the cathode plate 4 and the anode plate 5 and between adjacent cathode plates 4, so that the electrolysis time is prolonged, and the electrolysis is sufficient.

In this embodiment, the inner sides of the cathode positioning plate 02 and the anode positioning plate 03 are provided with positioning notches 021 for fixing the corresponding cathode plate 4 and the anode plate 5; the edge portions of the cathode positioning plate 02 and the anode positioning plate 03 are further provided with a fracture 022 for allowing the corresponding cathode plate 4 and the anode plate 5 to extend out from the side surface, the positioning notches 021 are of an inward concave structure, a protrusion is formed between every two adjacent positioning notches 021, and the cathode plate 4 and the anode plate 5 are clamped in the positioning notches 021 and are clamped and fixed by the interelectrode isolation plates 05 at two sides.

In this embodiment, the water inlet hole 6 and the water outlet hole 2 are both provided with internal threads; the joints of all the parts are sealed by pouring epoxy resin; the internal thread is arranged for installing the water inlet or outlet connecting component.

In the embodiment, the cathode plate 4 and the anode plate 5 extend out towards different sides, and the extending parts of the cathode plate and the anode plate are provided with wiring holes; convenient wiring and reasonable structure.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims

1. A hybrid electrolysis apparatus, characterized by: comprises a box body, a liquid inlet system, a power supply system and a mixed electrolytic tank, wherein the liquid inlet system, the power supply system and the mixed electrolytic tank are fixedly arranged in the box body; the power supply system provides a direct-current electrolysis power supply for the mixed electrolytic tank, the mixed electrolytic tank adopts a laminated structure and comprises a shell, and the shell comprises two parallel and opposite baffles, and a cathode positioning plate, an anode positioning plate and an interelectrode partition plate which are arranged between the two baffles in a superposed manner; the cathode positioning plates, the anode positioning plates and the interelectrode partition plates are in rectangular frame structures, so that an inner cavity is formed in the shell, a water inlet slow-release cavity and a water outlet slow-release cavity are respectively formed in the bottom and the top of the inner cavity, a cathode plate is fixed between the water inlet slow-release cavity and the water outlet slow-release cavity in each cathode positioning plate, and an anode plate is fixed between the water inlet slow-release cavity and the water outlet slow-release cavity in each anode positioning plate; the positions of the baffle plate corresponding to the water inlet slow release cavity and the water outlet slow release cavity are respectively provided with a water inlet hole and a water outlet hole; the liquid inlet system is connected to the water inlet hole and used for providing electrolyte for the mixed electrolytic cell.

2. The hybrid electrolysis apparatus according to claim 1, wherein: the liquid inlet system comprises a tap water filter, a flowmeter, an electromagnetic valve and a hydraulic proportional dosing pump which are connected in sequence; the water outlet end of the hydraulic proportional dosing pump is connected with the water inlet hole of the mixed electrolytic tank through a pipeline.

3. The hybrid electrolysis apparatus according to claim 1, wherein: the outer side of each baffle plate is provided with a stainless steel base plate, each baffle plate, each cathode positioning plate, each anode positioning plate and each interelectrode partition plate are connected through a plurality of pull screws, and two ends of each pull screw penetrate through the stainless steel base plate to extend out and are fastened through nuts.

4. The hybrid electrolysis apparatus according to claim 3, wherein: a plurality of cathode plates are arranged on each cathode positioning plate at intervals along the length direction, an anode plate is fixed on each anode positioning plate, the anode plate is a long strip sheet with the length direction in the same direction as that of the anode positioning plate, and gaps for electrolyte to flow through are arranged between the cathode plates and the anode plates and between the adjacent cathode plates.

5. The hybrid electrolysis apparatus according to claim 4, wherein: the inner sides of the cathode positioning plate and the anode positioning plate are provided with positioning notches for fixing the corresponding cathode plate and the anode plate; the edge parts of the cathode positioning plate and the anode positioning plate are also provided with fractures for the corresponding cathode plate and the anode plate to extend out from the side surfaces.

6. The hybrid electrolysis apparatus according to claim 5, wherein: the water inlet hole and the water outlet hole are both provided with internal threads; the joints of the components are sealed by pouring epoxy resin.

7. The hybrid electrolysis apparatus according to claim 6, wherein: the negative plate and the positive plate extend out towards different sides, and the extending parts of the negative plate and the positive plate are provided with wiring holes.