CN209853806U - Electrolytic tank for producing sterilized water - Google Patents

Abstract

The utility model relates to an electrolytic cell for producing sterilized water, which comprises at least two plate layer structures, a water chamber positioned inside the plate layer structures, a water inlet communicated with the water chamber, a water outlet communicated with the water chamber and electrolyte positioned inside the water chamber and flowing between the plate layer structures; the water outlet of the plate layer structure is communicated with the water inlet of the adjacent plate layer structure behind the plate layer structure; the laminated structure comprises a cathode and an anode, and the cathode and the anode are mutually staggered between different laminated structures. The utility model provides an electrolysis trough for producing sterile water through carry out electrolysis many times between each sheet layer structure, has improved electrolysis efficiency greatly, has broken through the restriction of traditional electrolysis technology's finished product concentration, satisfies the market demand, can be according to actual need, selects the corresponding number of piles of sheet layer structure, and the product is diversified.

Description

Electrolytic tank for producing sterilized water

Technical Field

The utility model relates to the technical field of electrolytic equipment, in particular to an electrolytic cell for producing sterilized water.

Background

The disinfectant fluid has strong oxidability and can be used for sterilization, in the production process, soluble chlorides such as sodium chloride and potassium chloride are added into the water, and after electrolysis, the prototype reaction can be changed to generate simple substance or compound of chlorine with oxidability, so that the disinfectant fluid with disinfection capability can be produced.

The existing disinfectant water production equipment already meets the requirements of multi-layer electrode electrolysis water paths, but the water paths of each layer are all in-and-out, under an ideal state, water in unit volume can only pass through one layer to carry out motor, which is equivalent to a single motor, the concentration of the disinfectant water electrolyzed at one time is constant, namely, the existing disinfectant water production equipment carries out electrolysis no matter in a one-layer structure or a multi-layer structure, and finally disinfectant water with almost the same concentration is obtained, the multi-layer structure only changes the total amount, because all cathodes and anodes of the existing multi-layer structure electrolytic tank are connected with a circuit in parallel, the increase of the number of the layers of the existing electrolytic tank cannot improve the concentration of a finished product, the production upper limit of the concentration of the finished product is indirectly limited, and the actual requirements cannot be met.

Based on the shortcomings of the existing electrolytic cell, there is a need to provide a novel electrolytic cell to solve the above problems.

The utility model provides an electrolysis trough for producing sterile water through the waterway structure setting that the multiplayer layer is established ties and is flowed, has promoted electrolysis efficiency and finished product concentration, has promoted market competition.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an electrolysis trough for producing sterile water, establish ties the waterway structure setting that flows through the multiple sheet layer, has promoted electrolysis efficiency and finished product concentration, has promoted market competition.

In order to solve the technical problem, the utility model provides an electrolytic cell for producing sterilized water, which comprises at least two plate layer structures, a water chamber positioned inside the plate layer structures, a water inlet communicated with the water chamber, a water outlet communicated with the water chamber and electrolyte positioned inside the water chamber and flowing between the plate layer structures;

the water outlet of the plate layer structure is communicated with the water inlet of the adjacent plate layer structure behind the plate layer structure;

the laminated structure comprises a cathode and an anode, and the cathode and the anode are mutually staggered between different laminated structures.

Preferably, the number of the slab layer structures is four, and the four slab layer structures are respectively a first slab layer structure, a second slab layer structure, a third slab layer structure and a fourth slab layer structure, and the four slab layer structures are sequentially arranged.

Preferably, the first lamellar structure comprises a first cathode and a first anode;

the second laminated structure includes a second cathode and a second anode;

the third plate layer structure comprises a third cathode and a third anode;

the fourth plate layer structure comprises a fourth cathode and a fourth anode;

the first cathode is connected with the second cathode, the second anode is connected with the third anode, and the third cathode is connected with the fourth cathode.

Preferably, the water inlets and the water outlets on the adjacent plate layer structures are arranged in a staggered manner.

Preferably, the first plate layer structure is provided with a first water inlet and a first water outlet;

a second water inlet and a second water outlet are formed in the second plate layer structure;

a third water inlet and a third water outlet are formed in the third plate layer structure;

and a fourth water inlet and a fourth water outlet are arranged on the fourth plate layer structure.

Preferably, the first water outlet is communicated with the second water inlet and is positioned at the same side of the plate structure;

the second water outlet is communicated with the third water inlet and is positioned on the same side of the plate structure;

the third water outlet is communicated with the fourth water inlet and is positioned on the same side of the plate structure.

Preferably, the electrolyte flows through the first water outlet, the second water inlet, the second water outlet, the third water inlet, the third water outlet and the fourth water inlet in sequence from the first water inlet, and then flows out from the fourth water outlet.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model provides an electrolysis trough for producing sterile water through carry out electrolysis many times between each sheet layer structure, has improved electrolysis efficiency greatly, has broken through the restriction of traditional electrolysis technology's finished product concentration, satisfies the market demand, can be according to actual need, selects the corresponding number of piles of sheet layer structure, and the product is diversified.

2. The utility model provides an electrolysis trough for producing sterile water, it is adjacent the water inlet and the delivery port of sheet layer structure are crisscross each other arranges, have simplified the structure of electrolysis trough greatly, are convenient for install.

3. The utility model provides an electrolysis trough for producing sterile water, negative pole and positive pole between the different sheet layer structures are crisscross each other, can make electrolytic reaction more abundant, improve electrolysis efficiency.

Drawings

FIG. 1 is a schematic view of an electrolytic cell for producing sterilized water according to the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1, an electrolytic cell for producing sterilized water includes at least two plate structures 1, a water chamber 2 located inside the plate structures, a water inlet 3 communicated with the water chamber 2, a water outlet 4 communicated with the water chamber 2, and an electrolyte located inside the water chamber 2 and flowing between the plate structures;

the water outlet 4 of the plate layer structure 1 is communicated with the water inlet 3 of the adjacent plate layer structure 1 behind the plate layer structure;

the lamellar structure 1 comprises cathodes 11 and anodes 12, the cathodes 11 and anodes 12 being interleaved between different lamellar structures.

The laminated structure 1 is used for electrolyzing an electrolyte to obtain required sterilized water. Specifically, laminated structure 1 includes negative pole 11 and positive pole 12, negative pole 11 and positive pole 12 are located respectively laminated structure 1's both ends, and the electrolyte loops through negative pole 11 and positive pole 12 in proper order, carries out cathodic electrolysis and anodic electrolysis respectively to obtain the required ion of disinfecting.

The number of the slab structures 1 is at least two, the specific number is set according to actual needs, and the following description specifically describes by taking four slab structures as an example:

the four plate layer structures 1 are respectively a first plate layer structure 1a, a second plate layer structure 1b, a third plate layer structure 1c and a fourth plate layer structure 1d, the four plate layer structures are sequentially arranged, the first plate layer structure 1a comprises a first cathode and a first anode, the second plate layer structure 1b comprises a second cathode and a second anode, the third plate layer structure 1c comprises a third cathode and a third anode, and the fourth plate layer structure 1d comprises a fourth cathode and a fourth anode, wherein the first cathode is connected with the second cathode, the second anode is connected with the third anode, the third cathode is connected with the fourth cathode, and here, the cathodes and the anodes of different plate layer structures are mutually staggered, so that the electrolytic reaction can be more sufficient, and the electrolytic efficiency is improved.

Hydroecium 2 is located sheet layer structure 1's inside for the splendid attire electrolyte is convenient for electrolyte and is carried out the electrolysis in its inside, and flows between hydroecium 2 of difference, thereby realizes the electrolysis many times of electrolyte, and electrolysis efficiency is higher, and the electrolysis is more abundant.

The water inlet 3 is communicated with the water chamber 2, so that electrolyte can be conveniently injected into the water chamber 2, and after electrolysis is completed, the electrolyte flows out through the water outlet, and the circulation of the electrolyte is realized.

Delivery port 4 with hydroecium 2 is linked together, and its with the water inlet divide 3 to be located respectively the both ends of hydroecium 2 guarantee that the inside water homoenergetic of hydroecium 2 can carry out positive pole electrolysis and negative pole electrolysis, and is adjacent water inlet 3 and delivery port 4 on the sheet layer structure 1 are crisscross each other arranges, are convenient for realize the circulation of the electrolyte between the different sheet layer structures 1, simplify the inner structure of electrolysis trough.

Specifically, the four plate layer structures are taken as an example for specific explanation, a first water inlet and a first water outlet are arranged on the first plate layer structure 1a, a second water inlet and a second water outlet are arranged on the second plate layer structure 1b, a third water inlet and a third water outlet are arranged on the third plate layer structure 1c, a fourth water inlet and a fourth water outlet are arranged on the fourth plate layer structure 1d, the first water outlet is communicated with the second water inlet and is located at the same side of the plate structure, the second water outlet is communicated with the third water inlet and is located at the same side of the plate structure, the third water outlet is communicated with the fourth water inlet and is located at the same side of the plate structure, here, the water inlets 3 and the water outlets 4 of the adjacent plate layer structures 1 are arranged in a staggered manner, the structure of the electrolytic cell is greatly simplified, and the installation is convenient.

The electrolyte is positioned in the water chamber and flows in the water chamber between different plate layer structures. In this embodiment, the electrolyte flows from the first water inlet through the first water outlet, the second water inlet, the second water outlet, the third water inlet, the third water outlet, and the fourth water inlet in sequence, and then flows out from the fourth water outlet.

Specifically, the electrolyte enters from a first water inlet of the first plate-layer structure 1a and is subjected to anode electrolysis firstly, and then is subjected to cathode electrolysis again through the water chamber, the electrolyzed electrolyte flows into the second plate-layer structure 1b through the first water outlet and the second water inlet and is subjected to cathode electrolysis, the electrolyzed electrolyte after electrolysis is completed in the second plate-layer structure 1b flows into the third plate-layer structure 1c through the second water outlet and the third water inlet and is subjected to anode electrolysis and then to cathode electrolysis, and the electrolyzed electrolyte flows into the fourth plate-layer structure 1d through the third water outlet and the fourth water inlet and is subjected to cathode electrolysis and then flows out.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model provides an electrolysis trough for producing sterile water through carry out electrolysis many times between each sheet layer structure, has improved electrolysis efficiency greatly, has broken through the restriction of traditional electrolysis technology's finished product concentration, satisfies the market demand, can be according to actual need, selects the corresponding number of piles of sheet layer structure, and the product is diversified.

2. The utility model provides an electrolysis trough for producing sterile water, it is adjacent the water inlet and the delivery port of sheet layer structure are crisscross each other arranges, have simplified the structure of electrolysis trough greatly, are convenient for install.

3. The utility model provides an electrolysis trough for producing sterile water, negative pole and positive pole between the different sheet layer structures are crisscross each other, can make electrolytic reaction more abundant, improve electrolysis efficiency.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (7)

1. An electrolytic cell for producing sterilized water, comprising at least two laminated structures, a water chamber located inside the laminated structures, a water inlet communicated with the water chamber, a water outlet communicated with the water chamber, and an electrolyte located inside the water chamber and flowing between the laminated structures;

the water outlet of the plate structure is communicated with the water inlet of the adjacent plate structure behind the plate structure;

the laminated structure comprises a cathode and an anode, and the cathode and the anode are mutually staggered between different laminated structures.

2. The electrolytic cell for producing sterilized water according to claim 1, wherein the number of the sheet layer structures is four, respectively, a first sheet layer structure, a second sheet layer structure, a third sheet layer structure and a fourth sheet layer structure, and the four sheet layer structures are arranged in sequence.

3. The electrolytic cell for producing sterilized water according to claim 2, wherein the first sheet layer structure comprises a first cathode and a first anode;

the second laminated structure includes a second cathode and a second anode;

the third plate layer structure comprises a third cathode and a third anode;

the fourth plate layer structure comprises a fourth cathode and a fourth anode;

the first cathode is connected with the second cathode, the second anode is connected with the third anode, and the third cathode is connected with the fourth cathode.

4. The electrolyzer for producing sterilised water according to claim 1 wherein the water inlets and water outlets on adjacent plate-layer structures are staggered with respect to each other.

5. The electrolytic cell for producing sterilized water according to claim 2, wherein the first plate layer structure is provided with a first water inlet and a first water outlet;

a second water inlet and a second water outlet are formed in the second plate layer structure;

a third water inlet and a third water outlet are formed in the third plate layer structure;

and a fourth water inlet and a fourth water outlet are arranged on the fourth plate layer structure.

6. The electrolyzer for producing sterilised water according to claim 5 wherein the first water outlet communicates with the second water inlet and is located on the same side of the laminated structure;

the second water outlet is communicated with the third water inlet and is positioned on the same side of the plate layer structure;

and the third water outlet is communicated with the fourth water inlet and is positioned on the same side of the plate layer structure.

7. The electrolytic cell for producing sterilized water according to claim 5, wherein the electrolyte flows from the first water inlet, sequentially through a first water outlet, a second water inlet, a second water outlet, a third water inlet, a third water outlet, and a fourth water inlet, and then flows out from a fourth water outlet.