CN208430233U - A kind of waterway structure of water electrolyser - Google Patents

Abstract

The utility model discloses a kind of waterway structures of water electrolyser, including the total tank of water storage, anode electrolytic tank and water storage divide tank, the side of the total tank of water storage is provided with anode electrolytic tank, the anode electrolytic tank is provided with water storage far from the side of the total tank of water storage and divides tank, and cathode electrolytic cell is provided on groove body of the anode electrolytic tank far from the total tank side of water storage, the total tank of water storage is that anode electrolytic tank and water storage divide tank to mention use in electrolysis water by fluid-through tube and tee tube, water storage divides tank to mention use in electrolysis water by fluid-through tube for cathode electrolytic cell, pass through the collection processing for the oxygen that oxygen collecting pipe facilitates anode electrolytic tank to generate, the hydrogen that cathode electrolytic cell is generated is facilitated to be sent in the gas-guide tube that water storage divides tank inner tanks bottom to be arranged by hydrogen efferent duct, hydrogen is increased by the gas-guide tube and retardation plate of ring type structure and water storage divides water body in tank Contact area and hydrogen remain in the time in water body, improve the molten of hydrogen and deposit rate.

Description

A kind of waterway structure of water electrolyser

Technical field

The utility model belongs to water electrolyser technical field, and in particular to a kind of waterway structure of water electrolyser.

Background technique

Water electrolysis is a kind of chemical experiment, and it is by two kinds of hydrogen, oxygen elements that water is recognized by the decomposition and compound experiment of water It is composed.The volume ratio of anode generation oxygen, cathode generation hydrogen, hydrogen and oxygen is 2:1.

The prior art has the following problems: by the available oxygen of water electrolysis and hydrogen-rich water, and lacking a kind of user Just and hydrogen is molten deposits the high water electrolyser waterway structure of rate, is unfavorable for the acquisition of the collection of oxygen and hydrogen-rich water when water electrolysis.

Utility model content

To solve the problems mentioned above in the background art.The utility model provides a kind of water route knot of water electrolyser Structure, having the characteristics that easy to use and hydrogen, molten to deposit rate high.

To achieve the above object, the utility model provides the following technical solutions: a kind of waterway structure of water electrolyser, including The total tank of water storage, anode electrolytic tank and water storage divide tank, and the side of the total tank of water storage is provided with anode electrolytic tank, the anode Electrolytic cell is provided with water storage far from the side of the total tank of water storage and divides tank, and sets on groove body of the anode electrolytic tank far from the total tank side of water storage It is equipped with cathode electrolytic cell, is provided with fluid-through tube, the cathode electrolytic cell and water storage between the total tank of the water storage and anode electrolytic tank It is provided with fluid-through tube and hydrogen efferent duct between point tank, successively pacifies on the fluid-through tube between the total tank of the water storage and anode electrolytic tank Equipped with water-delivery pump, electronic valve, tee tube and the first check valve, the water storage divide on the fluid-through tube between tank and cathode electrolytic cell according to Secondary to be equipped with water-delivery pump, electronic valve and the first check valve, the anode electrolytic tank is set at the top of the total tank side groove body of water storage It is equipped with oxygen collecting pipe, second one-way valve is provided on the hydrogen efferent duct and oxygen collecting pipe, the water storage divides tank remote Bottom from cathode electrolytic cell side tank body is provided with outlet pipe, and water storage divide the bottom of tank inner tanks be provided with gas-guide tube and Retardation plate.

Preferably, the bottom tank body of the total tank of the water storage passes through the bottom groove body of fluid-through tube and tee tube and anode electrolytic tank It is connected, and the bottom tank body of the total tank of water storage divides the top canister of tank to be connected by fluid-through tube and tee tube with water storage.

Preferably, the water storage divides the bottom tank body of tank to be connected by fluid-through tube with the bottom groove body of cathode electrolytic cell, And water storage divides the top canister of tank to be connected by hydrogen efferent duct with the top groove body of cathode electrolytic cell.

Preferably, the top groove body of the anode electrolytic tank is connected by oxygen collecting pipe with external oxygen collecting device It connects.

Preferably, the gas-guide tube is set as ring type structure, and multiple jets are provided on the upper surface of gas-guide tube tube body Mouth.

Preferably, the surface of gas-guide tube is arranged in the retardation plate, and multiple ventilation holes are offered on retardation plate.

Compared with prior art, the utility model has the beneficial effects that

1, the side of the total tank of the utility model water storage is provided with anode electrolytic tank, and anode electrolytic tank is far from the total tank of water storage Side be provided with water storage and divide tank, the total tank of water storage divides tank to provide electrolysis by fluid-through tube and tee tube for anode electrolytic tank and water storage With water, water storage divides tank to mention use in electrolysis water by fluid-through tube for cathode electrolytic cell, facilitates anode electrolytic tank by oxygen collecting pipe The collection of the oxygen of generation is handled, and is facilitated the hydrogen that cathode electrolytic cell is generated to be sent to water storage by hydrogen efferent duct and is divided in tank Portion's tank base setting gas-guide tube in, thus facilitate hydrogen it is molten there are water storages to divide in the water body of tank, realize the acquisition of hydrogen-rich water.

2, the utility model water storage divides the bottom of tank inner tanks to be provided with gas-guide tube and retardation plate, passes through ring type structure Gas-guide tube increases hydrogen and divides the contact of water body in tank with water storage, so that increasing the molten of hydrogen deposits rate, by being arranged in air guide Retardation plate right above pipe increases hydrogen and retains time in water body, further increases the molten of hydrogen and deposits rate, guarantees hydrogen-rich water Hydrogen content.

Detailed description of the invention

Fig. 1 is the main view of the utility model；

Fig. 2 is the top view of the utility model gas-guide tube；

Fig. 3 is the perspective view of the utility model retardation plate；

In figure: 1, the total tank of water storage；2, fluid-through tube；3, water-delivery pump；4, electronic valve；5, tee tube；6, the first check valve；7, positive Pole electrolytic cell；71, cathode electrolytic cell；8, water storage divides tank；81, retardation plate；82, outlet pipe；83, gas-guide tube；9, hydrogen efferent duct； 10, second one-way valve；11, oxygen collecting pipe.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model is the following technical schemes are provided: a kind of waterway structure of water electrolyser, including storage The total tank 1 of water, anode electrolytic tank 7 and water storage divide tank 8, and the side of total 1 tank body of tank of water storage is provided with anode electrolytic tank 7, anode electrolysis Slot 7 is provided with water storage far from the side of the total tank 1 of water storage and divides tank 8, and on groove body of the anode electrolytic tank 7 far from total 1 side of tank of water storage It is provided with cathode electrolytic cell 71, is provided with fluid-through tube 2, cathode electrolytic cell 71 and water storage between the total tank 1 of water storage and anode electrolytic tank 7 Divide between tank 8 and be provided with fluid-through tube 2 and hydrogen efferent duct 9, on the fluid-through tube 2 between the total tank 1 of water storage and anode electrolytic tank 7 successively Water-delivery pump 3, electronic valve 4, tee tube 5 and the first check valve 6 are installed, water storage divides the logical liquid between tank 8 and cathode electrolytic cell 71 Water-delivery pump 3, electronic valve 4 and the first check valve 6 are sequentially installed on pipe 2, anode electrolytic tank 7 is close to the total 1 side groove body of tank of water storage Top be provided with oxygen collecting pipe 11, be provided with second one-way valve 10, water storage on hydrogen efferent duct 9 and oxygen collecting pipe 11 Divide tank 8 that the bottom of 71 side tank body of cathode electrolytic cell is provided with outlet pipe 82, and water storage divides the bottom of 8 inner tanks of tank to set It is equipped with gas-guide tube 83 and retardation plate 81, gas-guide tube 83 is set as ring type structure, and is provided on the upper surface of 83 tube body of gas-guide tube Multiple air nozzles, the surface of gas-guide tube 83 is arranged in retardation plate 81, and multiple ventilation holes, water storage are offered on retardation plate 81 The bottom tank body of total tank 1 is connected by fluid-through tube 2 and tee tube 5 with the bottom groove body of anode electrolytic tank 7, and the total tank 1 of water storage Bottom tank body divide the top canister of tank 8 to be connected with water storage by fluid-through tube 2 and tee tube 5, water storage divides the bottom tank body of tank 8 It is connected by fluid-through tube 2 with the bottom groove body of cathode electrolytic cell 71, and water storage divides the top canister of tank 8 to pass through hydrogen efferent duct 9 are connected with the top groove body of cathode electrolytic cell 71, and the top groove body of anode electrolytic tank 7 passes through oxygen collecting pipe 11 and outside Oxygen collecting device is connected.

The working principle and process for using of the utility model: the side of total 1 tank body of tank of the utility model water storage is provided with sun Pole electrolytic cell 7, anode electrolytic tank 7 are provided with water storage far from the side of the total tank 1 of water storage and divide tank 8, and the bottom tank body of the total tank 1 of water storage is logical It crosses fluid-through tube 2 and tee tube 5 to be connected with the bottom groove body of anode electrolytic tank 7, and the bottom tank body of the total tank 1 of water storage is by leading to liquid Pipe 2 and tee tube 5 divide the top canister of tank 8 to be connected with water storage, are that anode electrolytic tank 7 and water storage divide tank 8 by the total tank 1 of water storage Use in electrolysis water is mentioned, water storage divides the bottom tank body of tank 8 to be connected by fluid-through tube 2 with the bottom groove body of cathode electrolytic cell 71, storage Moisture tank 8 is that cathode electrolytic cell 71 mentions use in electrolysis water, and it is single that water-delivery pump 3, electronic valve 4 and first are sequentially installed on fluid-through tube 2 To valve 6, the conveying of electrolysis water is carried out by water-delivery pump 3, the circulation of water body in fluid-through tube 2 is controlled by electronic valve 4, by the One check valve 6 ensures the unidirectional flow of water body, avoids the reflux of electrolysis water, anode electrolytic tank 7 is close to total 1 side of tank of water storage Oxygen collecting pipe 11 is provided at the top of groove body, the top groove body of anode electrolytic tank 7 passes through oxygen collecting pipe 11 and external oxygen Gas collection device is connected, and the collection for the oxygen for facilitating anode electrolytic tank 7 to generate by oxygen collecting pipe 11 is handled, catholyte Slot 71 and water storage, which divide between tank 8, is provided with fluid-through tube 2 and hydrogen efferent duct 9, is facilitated by hydrogen efferent duct 9 cathode electrolytic cell 71 hydrogen generated are sent to the gas-guide tube 83 that water storage divides 8 inner tanks bottom of tank to be arranged, to facilitate hydrogen, molten there are water storages Divide in the water body of tank 8, while passing through the gas-guide tube 83 of ring type structure, increase the contact that hydrogen divides water body in tank 8 with water storage, increases The molten of hydrogen has been added to deposit rate, the surface of gas-guide tube 83 is arranged in retardation plate 81, increases hydrogen by retardation plate 81 and remains in storage The time of water body in moisture tank 8 further increases the molten of hydrogen and deposits rate, guarantees the hydrogen content of hydrogen-rich water, hydrogen efferent duct 9 and oxygen It is provided with second one-way valve 10 on gas collecting pipe 11, guarantees the unidirectional flow of hydrogen and oxygen by second one-way valve 10, The utility model structure is simple, easy to use, and the molten acquisition for depositing rate and hydrogen-rich water of hydrogen can be effectively ensured.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of waterway structure of water electrolyser, including the total tank of water storage (1), anode electrolytic tank (7) and water storage divide tank (8), special Sign is: the side of the total tank of water storage (1) tank body is provided with anode electrolytic tank (7), and the anode electrolytic tank (7) is far from water storage The side of total tank (1) is provided with water storage and divides tank (8), and is arranged on the groove body of the separate total tank of water storage (1) side of anode electrolytic tank (7) Have cathode electrolytic cell (71), is provided with fluid-through tube (2) between the total tank of water storage (1) and anode electrolytic tank (7), the cathode electricity Solution slot (71) and water storage, which divide between tank (8), is provided with fluid-through tube (2) and hydrogen efferent duct (9), the total tank of water storage (1) and anode Water-delivery pump (3), electronic valve (4), tee tube (5) and the first check valve are sequentially installed on fluid-through tube (2) between electrolytic cell (7) (6), water-delivery pump (3), electronics are sequentially installed on the fluid-through tube (2) that the water storage divides between tank (8) and cathode electrolytic cell (71) Valve (4) and the first check valve (6), the anode electrolytic tank (7) are provided with oxygen at the top of the groove body of the total tank of water storage (1) side Collecting pipe (11) is provided with second one-way valve (10), the water storage on the hydrogen efferent duct (9) and oxygen collecting pipe (11) Tank (8) are divided to be provided with outlet pipe (82) far from the bottom of cathode electrolytic cell (71) side tank body, and water storage divides tank (8) inner tanks Bottom be provided with gas-guide tube (83) and retardation plate (81).

2. a kind of waterway structure of water electrolyser according to claim 1, it is characterised in that: the total tank of water storage (1) Bottom tank body is connected by fluid-through tube (2) and tee tube (5) with the bottom groove body of anode electrolytic tank (7), and the total tank of water storage (1) Bottom tank body divide the top canister of tank (8) to be connected with water storage by fluid-through tube (2) and tee tube (5).

3. a kind of waterway structure of water electrolyser according to claim 1, it is characterised in that: the water storage divides tank (8) Bottom tank body is connected by fluid-through tube (2) with the bottom groove body of cathode electrolytic cell (71), and water storage divides the top canister of tank (8) It is connected by hydrogen efferent duct (9) with the top groove body of cathode electrolytic cell (71).

4. a kind of waterway structure of water electrolyser according to claim 1, it is characterised in that: the anode electrolytic tank (7) Top groove body be connected by oxygen collecting pipe (11) with external oxygen collecting device.

5. a kind of waterway structure of water electrolyser according to claim 1, it is characterised in that: gas-guide tube (83) setting For ring type structure, and multiple air nozzles are provided on the upper surface of gas-guide tube (83) tube body.

6. a kind of waterway structure of water electrolyser according to claim 1, it is characterised in that: retardation plate (81) setting Multiple ventilation holes are offered in the surface of gas-guide tube (83), and on retardation plate (81).